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Nonlinear Dynamical Systems |
Lecture 1 - Introduction |
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Nonlinear Dynamical Systems |
Lecture 2 - First Order systems |
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Nonlinear Dynamical Systems |
Lecture 3 - Classification of Equilibrium points |
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Nonlinear Dynamical Systems |
Lecture 4 - Lipschitz Functions |
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Nonlinear Dynamical Systems |
Lecture 5 - Existence/uniqueness theorems |
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Nonlinear Dynamical Systems |
Lecture 6 - Existence/uniqueness of solutions to differential equations |
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Nonlinear Dynamical Systems |
Lecture 7 - Lyapunov theorem on stability |
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Nonlinear Dynamical Systems |
Lecture 8 - Extension of Lyapunov's Theorem in different contexts |
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Nonlinear Dynamical Systems |
Lecture 9 - LaSalle's Invariance principle, Barbashin and Krasovski theorems, periodic orbits |
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Nonlinear Dynamical Systems |
Lecture 10 - Bendixson criterion and Poincare-Bendixson criterion. Example: Lotka Volterra predator prey model |
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Nonlinear Dynamical Systems |
Lecture 11 - Bendixson and Poincare-Bendixson criteria van-der-Pol Oscillator |
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Nonlinear Dynamical Systems |
Lecture 12 - Scilab simulation of Lotka Volterra predator prey model, van-der-Pol Oscillator Review of linearization, operating point/operating trajectory |
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Nonlinear Dynamical Systems |
Lecture 13 - Signals, operators |
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Nonlinear Dynamical Systems |
Lecture 14 - Norms of signals, systems (operators), Finite gain L2 stable |
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Nonlinear Dynamical Systems |
Lecture 15 - Nyquist plots and Nyquist criterion for stability |
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Nonlinear Dynamical Systems |
Lecture 16 - Interconnection between linear system & non-linearity, passive filters |
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Nonlinear Dynamical Systems |
Lecture 17 - Passive filters, Dissipation equality, positive real lemma |
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Nonlinear Dynamical Systems |
Lecture 18 - Positive real lemma proof |
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Nonlinear Dynamical Systems |
Lecture 19 - Definition for positive realness and Kalman Yakubovich-Popov Theorem |
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Nonlinear Dynamical Systems |
Lecture 20 - Kalman-Yakubovich-Popov Lemma/theorem and memoryless nonlinearities |
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Nonlinear Dynamical Systems |
Lecture 21 - Loop tranformations and circle criterion |
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Nonlinear Dynamical Systems |
Lecture 22 - Nonlinearities based on circle criterion |
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Nonlinear Dynamical Systems |
Lecture 23 - Limit cycles |
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Nonlinear Dynamical Systems |
Lecture 24 - Popov criterion continuous, frequency-domain theorem |
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Nonlinear Dynamical Systems |
Lecture 25 - Popov criterion continuous, frequency-domain theorem |
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Nonlinear Dynamical Systems |
Lecture 26 - Describing function method |
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Nonlinear Dynamical Systems |
Lecture 27 - Describing Function : 2 |
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Nonlinear Dynamical Systems |
Lecture 28 - Describing : optimal gain |
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Nonlinear Dynamical Systems |
Lecture 29 - Describing : optimal gain |
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Nonlinear Dynamical Systems |
Lecture 30 - Describing functions : Jump Hysteresis |
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Nonlinear Dynamical Systems |
Lecture 31 - Describing functions : sufficient conditions for existence of periodic orbits non existence of periodic orbits |
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Nonlinear Dynamical Systems |
Lecture 32 - Describing functions for nonlinearities |
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Nonlinear Dynamical Systems |
Lecture 33 - Ideal relay with Hysteresis and dead zone |
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Nonlinear Dynamical Systems |
Lecture 34 - Dynamical systems on manifolds-1 |
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Nonlinear Dynamical Systems |
Lecture 35 - Dynamical systems on manifolds-2 |
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Power System Dynamics and Control |
Lecture 1 - Introduction |
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Power System Dynamics and Control |
Lecture 2 - Introduction |
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Power System Dynamics and Control |
Lecture 3 - Analysis of Dynamical Systems |
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Power System Dynamics and Control |
Lecture 4 - Analysis of Dynamical Systems (Continued.) |
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Power System Dynamics and Control |
Lecture 5 - Analysis of LINEAR Time Invariant Dynamical Systems |
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Power System Dynamics and Control |
Lecture 6 - Analysis of LINEAR Time Invariant Dynamical Systems (Continued.) |
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Power System Dynamics and Control |
Lecture 7 - Stiff Systems, Multi Time Scale Modeling |
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Power System Dynamics and Control |
Lecture 8 - Numerical Integration |
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Power System Dynamics and Control |
Lecture 9 - Numerical Integration (Continued.) |
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Power System Dynamics and Control |
Lecture 10 - Numerical Integration (Continued.) |
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Power System Dynamics and Control |
Lecture 11 - Modeling of Synchronous Machines |
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Power System Dynamics and Control |
Lecture 12 - Modeling of Synchronous Machines (Continued.) |
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Power System Dynamics and Control |
Lecture 13 - Modeling of Synchronous Machines (Continued.) |
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Power System Dynamics and Control |
Lecture 14 - Modeling of Synchronous Machines. dq0 transformation (Continued.) |
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Power System Dynamics and Control |
Lecture 15 - Modeling of Synchronous Machines. Standard Parameters |
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Power System Dynamics and Control |
Lecture 16 - Modeling of Synchronous Machines. Standard Parameters |
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Power System Dynamics and Control |
Lecture 17 - Synchronous Generator Models using Standard Parameters |
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Power System Dynamics and Control |
Lecture 18 - Synchronous Generator Models using Standard Parameters. PER UNIT REPRESENTATION |
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Power System Dynamics and Control |
Lecture 19 - Open Circuit Response of a Synchronous Generator |
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Power System Dynamics and Control |
Lecture 20 - Synchronous Machine Modeling. Short Circuit Analysis (Continued.) |
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Power System Dynamics and Control |
Lecture 21 - Synchronous Machine Modeling. Short Circuit Analysis (Continued.) Synchronization of a Synchronous Machine |
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Power System Dynamics and Control |
Lecture 22 - Synchronization of a Synchronous Machine (Continued.) |
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Power System Dynamics and Control |
Lecture 23 - Simplified Synchronous Machine Models |
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Power System Dynamics and Control |
Lecture 24 - Excitation Systems |
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Power System Dynamics and Control |
Lecture 25 - Excitation System Modeling |
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Power System Dynamics and Control |
Lecture 26 - Excitation System Modeling. Automatic Voltage Regulator |
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Power System Dynamics and Control |
Lecture 27 - Excitation System Modeling. Automatic Voltage Regulator (Continued.) |
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Power System Dynamics and Control |
Lecture 28 - Excitation System Modeling. Automatic Voltage Regulator (Simulation) |
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Power System Dynamics and Control |
Lecture 29 - Excitation System Modeling. Automatic Voltage Regulator (Simulation) – (Continued.) |
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Power System Dynamics and Control |
Lecture 30 - Excitation System Modeling. Automatic Voltage Regulator. Linearized Analysis |
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Power System Dynamics and Control |
Lecture 31 - Load Modeling |
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Power System Dynamics and Control |
Lecture 32 - Induction Machines, Transmission Lines |
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Power System Dynamics and Control |
Lecture 33 - Transmission Lines. Prime Mover Systems |
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Power System Dynamics and Control |
Lecture 34 - Transmission Lines (Continued.) Prime Mover Systems |
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Power System Dynamics and Control |
Lecture 35 - Prime Mover Systems. Stability in Integrated Power System |
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Power System Dynamics and Control |
Lecture 36 - Stability in Integrated Power System: Two Machine Example |
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Power System Dynamics and Control |
Lecture 37 - Two Machine System (Continued.) |
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Power System Dynamics and Control |
Lecture 38 - Stability in Integrated Power System: Large Systems |
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Power System Dynamics and Control |
Lecture 39 - Frequency/Angular Stability Programs. Stability Phenomena: Voltage Stability Example |
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Power System Dynamics and Control |
Lecture 40 - Voltage Stability Example (Continued.). Fast Transients: Tools and Phenomena |
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Power System Dynamics and Control |
Lecture 41 - Torsional Transients: Phenomena of Sub-Synchronous Resonance |
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Power System Dynamics and Control |
Lecture 42 - Sub-Synchronous Resonance. Stability Improvement |
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Power System Dynamics and Control |
Lecture 43 - Stability Improvement |
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Power System Dynamics and Control |
Lecture 44 - Stability Improvement. Power System Stabilizers |
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Power System Dynamics and Control |
Lecture 45 - Stability Improvement (Large Disturbance Stability) |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 1 - The Control Problem |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 2 - Some More Examples |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 3 - Different Kinds of Control Systems |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 4 - History of Feedback |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 5 - Modern Control Problems |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 6 - DC Motor Speed Control |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 7 - System Modelling, Analogy |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 8 - Causes of System Error |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 9 - Calculation of Error |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 10 - Control System Sensitivity |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 11 - Automatic Control of DC Motor |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 12 - Proportional Control |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 13 - Non-Unity Feedback |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 14 - Signal-Flow Graph |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 15 - Mason's Gain Formula |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 16 - Signal-Flow Graph for DC Motor Control |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 17 - Steady-State Calculations |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 18 - Differential Equation Model and Laplace Transformation Model |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 19 - D-Operator Method |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 20 - Second-Order System Response |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 21 - Frequency Response |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 22 - Laplace Transformation Theorems |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 23 - Final Value Theorem |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 24 - Transfer Function and Pole-Zero Diagram |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 25 - 'Good' Poles and 'Bad' Poles |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 26 - Signal Flow Graph with Transfer Functions |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 27 - s-Domain and t-Domain |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 28 - Second-Order System Response in s-Domain |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 29 - Integral Feedback |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 30 - Root-Locus Method |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 31 - Root-Locus Rules |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 32 - Asymptotes of Root Locus |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 33 - Routh Array |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 34 - Singular Cases |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 35 - Closed Loop Poles |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 36 - Controller in the Forwarded Path |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 37 - Mapping of Control in the Complex-Plane |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 38 - Encirclement by a Curve |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 39 - Nyquist Criterion |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 40 - Application of the Nyquist Criterion |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 41 - Polar Plot and Bode Plots |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 42 - Logarithmic Scale for Frequency |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 43 - 'Asymptotic' DB Gain |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 44 - Compensating Network |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 45 - Nichols' Chart |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 46 - Time Domain Methods of Analysis and Design |
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Control Engineering (Prof. S.D. Agashe) |
Lecture 47 - State-Variable Equations |
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Power Electronics |
Lecture 1 - Power Electronics |
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Power Electronics |
Lecture 2 - Power Electronics |
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Power Electronics |
Lecture 3 - Power Electronics |
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Power Electronics |
Lecture 4 - Power Electronics |
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Power Electronics |
Lecture 5 - Power Electronics |
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Power Electronics |
Lecture 6 - Power Electronics |
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Power Electronics |
Lecture 7 - Power Electronics |
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Power Electronics |
Lecture 8 - Power Electronics |
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Power Electronics |
Lecture 9 - Power Electronics |
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Power Electronics |
Lecture 10 - Power Electronics |
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Power Electronics |
Lecture 11 - Power Electronics |
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Power Electronics |
Lecture 12 - Power Electronics |
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Power Electronics |
Lecture 13 - Power Electronics |
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Power Electronics |
Lecture 14 - Power Electronics |
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Power Electronics |
Lecture 15 - Power Electronics |
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Power Electronics |
Lecture 16 - Power Electronics |
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Power Electronics |
Lecture 17 - Power Electronics |
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Power Electronics |
Lecture 18 - Power Electronics |
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Power Electronics |
Lecture 19 - Power Electronics |
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Power Electronics |
Lecture 20 - Power Electronics |
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Power Electronics |
Lecture 21 - Power Electronics |
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Power Electronics |
Lecture 22 - Power Electronics |
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Power Electronics |
Lecture 23 - Power Electronics |
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Power Electronics |
Lecture 24 - Power Electronics |
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Power Electronics |
Lecture 25 - Power Electronics |
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Power Electronics |
Lecture 26 - Power Electronics |
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Power Electronics |
Lecture 27 - Power Electronics |
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Power Electronics |
Lecture 28 - Power Electronics |
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Power Electronics |
Lecture 29 - Power Electronics |
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Power Electronics |
Lecture 30 - Power Electronics |
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Power Electronics |
Lecture 31 - Power Electronics |
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Power Electronics |
Lecture 32 - Power Electronics |
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Power Electronics |
Lecture 33 - Power Electronics |
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Power Electronics |
Lecture 34 - Power Electronics |
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Power Electronics |
Lecture 35 - Power Electronics |
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Power Electronics |
Lecture 36 - Power Electronics |
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Power Electronics |
Lecture 37 - Power Electronics |
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Power Electronics |
Lecture 38 - Power Electronics |
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Power Electronics |
Lecture 39 - Power Electronics |
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Power Electronics |
Lecture 40 - Power Electronics |
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Power Electronics |
Lecture 41 - Power Electronics |
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Power Electronics |
Lecture 42 - Power Electronics |
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Power Electronics |
Lecture 43 - Power Electronics |
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Fabrication of Silicon VLSI Circuits using the MOS technology |
Lecture 1 - Introduction Micro to Nano A Journey into Intergrated Circuit Technology |
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Fabrication of Silicon VLSI Circuits using the MOS technology |
Lecture 2 - Introduction Micro to Nano A Journey into Intergrated Circuit Technology |
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Fabrication of Silicon VLSI Circuits using the MOS technology |
Lecture 3 - Crystal Properties and Silico Growth |
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Fabrication of Silicon VLSI Circuits using the MOS technology |
Lecture 4 - Crystal Properties and Silico Growth (Continued...) |
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Fabrication of Silicon VLSI Circuits using the MOS technology |
Lecture 5 - IC Fab Labs and Fabrication of IC |
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Fabrication of Silicon VLSI Circuits using the MOS technology |
Lecture 6 - Diffusion |
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Fabrication of Silicon VLSI Circuits using the MOS technology |
Lecture 7 - Diffusion (Continued...) |
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Fabrication of Silicon VLSI Circuits using the MOS technology |
Lecture 8 - Solid State Diffusion |
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Fabrication of Silicon VLSI Circuits using the MOS technology |
Lecture 9 - Solid State Diffusion (Continued...) |
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Fabrication of Silicon VLSI Circuits using the MOS technology |
Lecture 10 - Solid State Diffusion (Continued...) |
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Fabrication of Silicon VLSI Circuits using the MOS technology |
Lecture 11 - Thermal Oxidation of Silicons |
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Fabrication of Silicon VLSI Circuits using the MOS technology |
Lecture 12 - Thermal Oxidation of Silicons |
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Fabrication of Silicon VLSI Circuits using the MOS technology |
Lecture 13 - Thermal Oxidation of Silicons |
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Fabrication of Silicon VLSI Circuits using the MOS technology |
Lecture 14 - Thermal Oxidation of Silicons (Continued...) |
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Fabrication of Silicon VLSI Circuits using the MOS technology |
Lecture 15 - Thermal Oxidation of Silicons (Continued...) |
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Fabrication of Silicon VLSI Circuits using the MOS technology |
Lecture 16 - Lithography |
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Fabrication of Silicon VLSI Circuits using the MOS technology |
Lecture 17 - Lithography |
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Fabrication of Silicon VLSI Circuits using the MOS technology |
Lecture 18 - Lithography |
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Fabrication of Silicon VLSI Circuits using the MOS technology |
Lecture 19 - ION Implantation |
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Fabrication of Silicon VLSI Circuits using the MOS technology |
Lecture 20 - ION Implantation |
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Fabrication of Silicon VLSI Circuits using the MOS technology |
Lecture 21 - ION Implantation and Silicon IC Processing Flow for CMOS Technology |
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Fabrication of Silicon VLSI Circuits using the MOS technology |
Lecture 22 - ION Implantation and Silicon IC Processing Flow for CMOS Technology |
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Fabrication of Silicon VLSI Circuits using the MOS technology |
Lecture 23 - Silicon IC Processing Flow for CMOS Technology |
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Fabrication of Silicon VLSI Circuits using the MOS technology |
Lecture 24 - Thin Film Deposition |
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Fabrication of Silicon VLSI Circuits using the MOS technology |
Lecture 25 - Thin Film Deposition |
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Fabrication of Silicon VLSI Circuits using the MOS technology |
Lecture 26 - Thin Film Deposition |
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Fabrication of Silicon VLSI Circuits using the MOS technology |
Lecture 27 - Thin Film Deposition and Etching in VLSI Processing |
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Fabrication of Silicon VLSI Circuits using the MOS technology |
Lecture 28 - Etching in VLSI Processing and Back -End Technology |
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NOC:Computational Electromagnetics and Applications |
Lecture 1 - Lecture 1 |
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NOC:Computational Electromagnetics and Applications |
Lecture 2 - Lecture 2 |
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NOC:Computational Electromagnetics and Applications |
Lecture 3 - Lecture 3 |
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NOC:Computational Electromagnetics and Applications |
Lecture 4 - Exercise 1 |
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NOC:Computational Electromagnetics and Applications |
Lecture 5 - Exercise 2 |
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NOC:Computational Electromagnetics and Applications |
Lecture 6 - Exercise 3 |
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NOC:Computational Electromagnetics and Applications |
Lecture 7 - Lab Tour 1 |
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NOC:Computational Electromagnetics and Applications |
Lecture 8 - Summary week 1 |
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NOC:Computational Electromagnetics and Applications |
Lecture 9 - Lecture 4 |
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NOC:Computational Electromagnetics and Applications |
Lecture 10 - Lecture 5 |
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NOC:Computational Electromagnetics and Applications |
Lecture 11 - Exercise 4 |
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NOC:Computational Electromagnetics and Applications |
Lecture 12 - Exercise 5 |
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NOC:Computational Electromagnetics and Applications |
Lecture 13 - Exercise 6 |
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NOC:Computational Electromagnetics and Applications |
Lecture 14 - Summary Week 2 |
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NOC:Computational Electromagnetics and Applications |
Lecture 15 - Lecture 6 |
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NOC:Computational Electromagnetics and Applications |
Lecture 16 - Lecture 7 |
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NOC:Computational Electromagnetics and Applications |
Lecture 17 - Lecture 8 |
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NOC:Computational Electromagnetics and Applications |
Lecture 18 - Exercise 7 |
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NOC:Computational Electromagnetics and Applications |
Lecture 19 - Exercise 8 |
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NOC:Computational Electromagnetics and Applications |
Lecture 20 - Summary Week 3 |
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NOC:Computational Electromagnetics and Applications |
Lecture 21 - Lecture 9 |
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NOC:Computational Electromagnetics and Applications |
Lecture 22 - Lecture 10 |
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NOC:Computational Electromagnetics and Applications |
Lecture 23 - Lecture 11 |
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NOC:Computational Electromagnetics and Applications |
Lecture 24 - Lecture 12 |
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NOC:Computational Electromagnetics and Applications |
Lecture 25 - Lecture 13 |
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NOC:Computational Electromagnetics and Applications |
Lecture 26 - Lecture 14 |
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NOC:Computational Electromagnetics and Applications |
Lecture 27 - Exercise 9 |
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NOC:Computational Electromagnetics and Applications |
Lecture 28 - Lab Tour - 2 |
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NOC:Computational Electromagnetics and Applications |
Lecture 29 - Summary Week 4 |
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NOC:Computational Electromagnetics and Applications |
Lecture 30 - Lecture 15 |
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NOC:Computational Electromagnetics and Applications |
Lecture 31 - Lecture 16 |
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NOC:Computational Electromagnetics and Applications |
Lecture 32 - Lecture 17 |
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NOC:Computational Electromagnetics and Applications |
Lecture 33 - Lecture 18 |
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NOC:Computational Electromagnetics and Applications |
Lecture 34 - Exercise 10 |
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NOC:Computational Electromagnetics and Applications |
Lecture 35 - Summary week 5 |
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NOC:Computational Electromagnetics and Applications |
Lecture 36 - Lecture 19 |
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NOC:Computational Electromagnetics and Applications |
Lecture 37 - Lecture 20 |
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NOC:Computational Electromagnetics and Applications |
Lecture 38 - Lecture 21 |
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NOC:Computational Electromagnetics and Applications |
Lecture 39 - Lecture 22 |
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NOC:Computational Electromagnetics and Applications |
Lecture 40 - Exercise 11 |
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NOC:Computational Electromagnetics and Applications |
Lecture 41 - Summary week 6 |
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NOC:Computational Electromagnetics and Applications |
Lecture 42 - Exercise 12 |
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NOC:Computational Electromagnetics and Applications |
Lecture 43 - Exercise 13 |
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NOC:Computational Electromagnetics and Applications |
Lecture 44 - Exercise 14 |
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NOC:Computational Electromagnetics and Applications |
Lecture 45 - Exercise 15 |
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NOC:Computational Electromagnetics and Applications |
Lecture 46 - Exercise 16 |
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NOC:Computational Electromagnetics and Applications |
Lecture 47 - Exercise 17 |
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NOC:Computational Electromagnetics and Applications |
Lecture 48 - Summary week 7 |
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NOC:Computational Electromagnetics and Applications |
Lecture 49 - Lecture 23 |
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NOC:Computational Electromagnetics and Applications |
Lecture 50 - Lecture 24 |
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NOC:Computational Electromagnetics and Applications |
Lecture 51 - Lecture 25 |
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NOC:Computational Electromagnetics and Applications |
Lecture 52 - Exercise 18 |
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NOC:Computational Electromagnetics and Applications |
Lecture 53 - Exercise 19 |
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NOC:Computational Electromagnetics and Applications |
Lecture 54 - Lab tour 3 |
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NOC:Computational Electromagnetics and Applications |
Lecture 55 - Summary week 8 |
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NOC:Computational Electromagnetics and Applications |
Lecture 56 - Lecture 26 |
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NOC:Computational Electromagnetics and Applications |
Lecture 57 - Lecture 27 |
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NOC:Computational Electromagnetics and Applications |
Lecture 58 - Lecture 28 |
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NOC:Computational Electromagnetics and Applications |
Lecture 59 - Lecture 29 |
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NOC:Computational Electromagnetics and Applications |
Lecture 60 - Lecture 30 |
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NOC:Computational Electromagnetics and Applications |
Lecture 61 - Lecture 31 |
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NOC:Computational Electromagnetics and Applications |
Lecture 62 - Lab tour 4 |
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NOC:Computational Electromagnetics and Applications |
Lecture 63 - Summary week 9 |
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NOC:Computational Electromagnetics and Applications |
Lecture 64 - Lecture 32 |
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NOC:Computational Electromagnetics and Applications |
Lecture 65 - Lecture 33 |
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NOC:Computational Electromagnetics and Applications |
Lecture 66 - Lecture 34 |
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NOC:Computational Electromagnetics and Applications |
Lecture 67 - Lecture 35 |
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NOC:Computational Electromagnetics and Applications |
Lecture 68 - Exercise 20 |
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NOC:Computational Electromagnetics and Applications |
Lecture 69 - Lab tour 5 |
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NOC:Computational Electromagnetics and Applications |
Lecture 70 - Summary week 10 |
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NOC:Computational Electromagnetics and Applications |
Lecture 71 - Lecture 36 |
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NOC:Computational Electromagnetics and Applications |
Lecture 72 - Lecture 37 |
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NOC:Computational Electromagnetics and Applications |
Lecture 73 - Lecture 38 |
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NOC:Computational Electromagnetics and Applications |
Lecture 74 - Lecture 39 |
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NOC:Computational Electromagnetics and Applications |
Lecture 75 - Lecture 40 |
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NOC:Computational Electromagnetics and Applications |
Lecture 76 - Summary week 11 |
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NOC:Computational Electromagnetics and Applications |
Lecture 77 - Lecture 41 |
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NOC:Computational Electromagnetics and Applications |
Lecture 78 - Lecture 42 |
| Link |
NOC:Computational Electromagnetics and Applications |
Lecture 79 - Lecture 43 |
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NOC:Computational Electromagnetics and Applications |
Lecture 80 - Lecture 44 |
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NOC:Computational Electromagnetics and Applications |
Lecture 81 - Exercise 21 |
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NOC:Computational Electromagnetics and Applications |
Lecture 82 - Exercise 22 |
| Link |
NOC:Computational Electromagnetics and Applications |
Lecture 83 - Summary week 12 |
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NOC:Basic Electronics |
Lecture 1 - A brief history of electronics |
| Link |
NOC:Basic Electronics |
Lecture 2 - Superposition |
| Link |
NOC:Basic Electronics |
Lecture 3 - Useful circuit techniques - 1 |
| Link |
NOC:Basic Electronics |
Lecture 4 - Useful circuit techniques - 2 |
| Link |
NOC:Basic Electronics |
Lecture 5 - Phasors - 1 |
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NOC:Basic Electronics |
Lecture 6 - Phasors - 2 |
| Link |
NOC:Basic Electronics |
Lecture 7 - RC/RL circuits in time domain - 1 |
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NOC:Basic Electronics |
Lecture 8 - RC/RL circuits in time domain - 2 |
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NOC:Basic Electronics |
Lecture 9 - RC/RL circuits in time domain - 3 |
| Link |
NOC:Basic Electronics |
Lecture 10 - RC/RL circuits in time domain - 4 |
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NOC:Basic Electronics |
Lecture 11 - RC/RL circuits in time domain - 5 |
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NOC:Basic Electronics |
Lecture 12 - Simulation of RC circuit |
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NOC:Basic Electronics |
Lecture 13 - Diode circuits - 1 |
| Link |
NOC:Basic Electronics |
Lecture 14 - Diode circuits - 2 |
| Link |
NOC:Basic Electronics |
Lecture 15 - Diode circuits - 3 |
| Link |
NOC:Basic Electronics |
Lecture 16 - Diode circuits - 4 |
| Link |
NOC:Basic Electronics |
Lecture 17 - Diode circuits - 5 |
| Link |
NOC:Basic Electronics |
Lecture 18 - Diode circuits - 6 |
| Link |
NOC:Basic Electronics |
Lecture 19 - Diode rectifiers - 1 |
| Link |
NOC:Basic Electronics |
Lecture 20 - Diode rectifiers - 2 |
| Link |
NOC:Basic Electronics |
Lecture 21 - Diode rectifiers - 3 |
| Link |
NOC:Basic Electronics |
Lecture 22 - Bipolar Junction Transistor - 1 |
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NOC:Basic Electronics |
Lecture 23 - Bipolar Junction Transistor - 2 |
| Link |
NOC:Basic Electronics |
Lecture 24 - Bipolar Junction Transistor - 3 |
| Link |
NOC:Basic Electronics |
Lecture 25 - BJT amplifier - 1 |
| Link |
NOC:Basic Electronics |
Lecture 26 - BJT amplifier - 2 |
| Link |
NOC:Basic Electronics |
Lecture 27 - BJT amplifier - 3 |
| Link |
NOC:Basic Electronics |
Lecture 28 - BJT amplifier - 4 |
| Link |
NOC:Basic Electronics |
Lecture 29 - BJT amplifier - 5 |
| Link |
NOC:Basic Electronics |
Lecture 30 - BJT amplifier - 6 |
| Link |
NOC:Basic Electronics |
Lecture 31 - BJT amplifier - 7 |
| Link |
NOC:Basic Electronics |
Lecture 32 - Introduction to op-amps |
| Link |
NOC:Basic Electronics |
Lecture 33 - Op-amp circuits - 1 |
| Link |
NOC:Basic Electronics |
Lecture 34 - Op-amp circuits - 2 |
| Link |
NOC:Basic Electronics |
Lecture 35 - Op-amp circuits - 3 |
| Link |
NOC:Basic Electronics |
Lecture 36 - Difference amplifier |
| Link |
NOC:Basic Electronics |
Lecture 37 - Instrumentation amplifier - 1 |
| Link |
NOC:Basic Electronics |
Lecture 38 - Instrumentation amplifier - 2 |
| Link |
NOC:Basic Electronics |
Lecture 39 - Op-amp nonidealities - 1 |
| Link |
NOC:Basic Electronics |
Lecture 40 - Op-amp nonidealities - 2 |
| Link |
NOC:Basic Electronics |
Lecture 41 - Bode plots - 1 |
| Link |
NOC:Basic Electronics |
Lecture 42 - Bode plots - 2 |
| Link |
NOC:Basic Electronics |
Lecture 43 - Bode plots - 3 |
| Link |
NOC:Basic Electronics |
Lecture 44 - Op-amp filters |
| Link |
NOC:Basic Electronics |
Lecture 45 - Simulation of op-amp filter |
| Link |
NOC:Basic Electronics |
Lecture 46 - Precision rectifiers - 1 |
| Link |
NOC:Basic Electronics |
Lecture 47 - Precision rectifiers - 2 |
| Link |
NOC:Basic Electronics |
Lecture 48 - Precision rectifiers - 3 |
| Link |
NOC:Basic Electronics |
Lecture 49 - Simulation of triangle-to-sine converter |
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NOC:Basic Electronics |
Lecture 50 - Schmitt triggers - 1 |
| Link |
NOC:Basic Electronics |
Lecture 51 - Schmitt triggers - 2 |
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NOC:Basic Electronics |
Lecture 52 - Schmitt triggers - 3 |
| Link |
NOC:Basic Electronics |
Lecture 53 - Sinusoidal oscillators - 1 |
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NOC:Basic Electronics |
Lecture 54 - Sinusoidal oscillators - 2 |
| Link |
NOC:Basic Electronics |
Lecture 55 - Introduction to digital circuits |
| Link |
NOC:Basic Electronics |
Lecture 56 - Boolean algebra |
| Link |
NOC:Basic Electronics |
Lecture 57 - Karnaugh maps |
| Link |
NOC:Basic Electronics |
Lecture 58 - Combinatorial circuits - 1 |
| Link |
NOC:Basic Electronics |
Lecture 59 - Combinatorial circuits - 2 |
| Link |
NOC:Basic Electronics |
Lecture 60 - Combinatorial circuits - 3 |
| Link |
NOC:Basic Electronics |
Lecture 61 - Introduction to sequential circuits |
| Link |
NOC:Basic Electronics |
Lecture 62 - Latch and flip-flop |
| Link |
NOC:Basic Electronics |
Lecture 63 - JK flip-flop |
| Link |
NOC:Basic Electronics |
Lecture 64 - D flip-flop |
| Link |
NOC:Basic Electronics |
Lecture 65 - Shift registers |
| Link |
NOC:Basic Electronics |
Lecture 66 - Counters - 1 |
| Link |
NOC:Basic Electronics |
Lecture 67 - Counters - 2 |
| Link |
NOC:Basic Electronics |
Lecture 68 - Simulation of a synchronous counter |
| Link |
NOC:Basic Electronics |
Lecture 69 - 555 timer |
| Link |
NOC:Basic Electronics |
Lecture 70 - Digital-to-analog conversion - 1 |
| Link |
NOC:Basic Electronics |
Lecture 71 - Digital-to-analog conversion - 2 |
| Link |
NOC:Basic Electronics |
Lecture 72 - Analog-to-digital conversion |
| Link |
NOC:Antennas |
Lecture 1 - Antenna Introduction - I |
| Link |
NOC:Antennas |
Lecture 2 - Antenna Introduction - II |
| Link |
NOC:Antennas |
Lecture 3 - Antenna Introduction - III |
| Link |
NOC:Antennas |
Lecture 4 - Antenna Fundamentals - I |
| Link |
NOC:Antennas |
Lecture 5 - Antenna Fundamentals - II |
| Link |
NOC:Antennas |
Lecture 6 - Antenna Radiation Hazards - I |
| Link |
NOC:Antennas |
Lecture 7 - Antenna Radiation Hazards - II |
| Link |
NOC:Antennas |
Lecture 8 - Dipole Antennas - I |
| Link |
NOC:Antennas |
Lecture 9 - Dipole Antennas - II |
| Link |
NOC:Antennas |
Lecture 10 - Dipole Antennas - III |
| Link |
NOC:Antennas |
Lecture 11 - Monopole Antennas - I |
| Link |
NOC:Antennas |
Lecture 12 - Monopole Antennas - II |
| Link |
NOC:Antennas |
Lecture 13 - Loop Antennas |
| Link |
NOC:Antennas |
Lecture 14 - Slot Antennas |
| Link |
NOC:Antennas |
Lecture 15 - Linear Arrays - I |
| Link |
NOC:Antennas |
Lecture 16 - Linear Arrays - II |
| Link |
NOC:Antennas |
Lecture 17 - Linear Arrays - III |
| Link |
NOC:Antennas |
Lecture 18 - Planar Arrays |
| Link |
NOC:Antennas |
Lecture 19 - Microstrip Antennas (MSA) |
| Link |
NOC:Antennas |
Lecture 20 - Rectangular MSA |
| Link |
NOC:Antennas |
Lecture 21 - MSA Parametric Analysis - I |
| Link |
NOC:Antennas |
Lecture 22 - MSA Parametric Analysis - II |
| Link |
NOC:Antennas |
Lecture 23 - Circular MSA |
| Link |
NOC:Antennas |
Lecture 24 - Broadband MSA - I |
| Link |
NOC:Antennas |
Lecture 25 - Broadband MSA - II |
| Link |
NOC:Antennas |
Lecture 26 - Broadband MSA - III |
| Link |
NOC:Antennas |
Lecture 27 - Broadband MSA - IV |
| Link |
NOC:Antennas |
Lecture 28 - Broadband MSA - V |
| Link |
NOC:Antennas |
Lecture 29 - Compact MSA - I |
| Link |
NOC:Antennas |
Lecture 30 - Compact MSA - II |
| Link |
NOC:Antennas |
Lecture 31 - Compact MSA - III |
| Link |
NOC:Antennas |
Lecture 32 - Tunable MSA - I |
| Link |
NOC:Antennas |
Lecture 33 - Tunable MSA - II |
| Link |
NOC:Antennas |
Lecture 34 - Circularly Polarized MSA - I |
| Link |
NOC:Antennas |
Lecture 35 - Circularly Polarized MSA - II |
| Link |
NOC:Antennas |
Lecture 36 - Circularly Polarized MSA - III |
| Link |
NOC:Antennas |
Lecture 37 - MSA Arrays - I |
| Link |
NOC:Antennas |
Lecture 38 - MSA Arrays - II |
| Link |
NOC:Antennas |
Lecture 39 - MSA Arrays - III |
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NOC:Antennas |
Lecture 40 - Helical Antennas - I |
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NOC:Antennas |
Lecture 41 - Helical Antennas - II |
| Link |
NOC:Antennas |
Lecture 42 - Helical Antennas - III |
| Link |
NOC:Antennas |
Lecture 43 - Helical Antennas - IV |
| Link |
NOC:Antennas |
Lecture 44 - Helical Antennas - V |
| Link |
NOC:Antennas |
Lecture 45 - Horn Antennas - I |
| Link |
NOC:Antennas |
Lecture 46 - Horn Antennas - II |
| Link |
NOC:Antennas |
Lecture 47 - Horn Antennas - III |
| Link |
NOC:Antennas |
Lecture 48 - Horn Antennas - IV |
| Link |
NOC:Antennas |
Lecture 49 - Horn Antennas - V |
| Link |
NOC:Antennas |
Lecture 50 - Yagi-Uda and Log-Periodic Antennas - I |
| Link |
NOC:Antennas |
Lecture 51 - Yagi-Uda and Log-Periodic Antennas - II |
| Link |
NOC:Antennas |
Lecture 52 - Yagi-Uda and Log-Periodic Antennas - III |
| Link |
NOC:Antennas |
Lecture 53 - IE3D Session TA - I |
| Link |
NOC:Antennas |
Lecture 54 - IE3D Session TA - II |
| Link |
NOC:Antennas |
Lecture 55 - IE3D Session TA - III |
| Link |
NOC:Antennas |
Lecture 56 - Reflector Antennas - I |
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NOC:Antennas |
Lecture 57 - Reflector Antennas - II |
| Link |
NOC:Antennas |
Lecture 58 - Reflector Antennas - III |
| Link |
NOC:Antennas |
Lecture 59 - Reflector Antennas - IV |
| Link |
NOC:Antennas |
Lecture 60 - Lab Session |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 1 - Module 1 - Lecture 1 - Introduction |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 2 - Module 1 - Lecture 2 - Origin of Wavelets |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 3 - Module 1 - Lecture 3 - Haar Wavelet |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 4 - Module 2 - Lecture 1 - Dyadic Wavelet |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 5 - Module 2 - Lecture 2 - Dilates and Translates of Haar Wavelets |
| Link |
NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 6 - Module 2 - Lecture 3 - L2 Norm of a Function |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 7 - Module 3 - Lecture 1 - Piecewise Constant Representation of a Function |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 8 - Module 3 - Lecture 2 - Ladder of Subspaces |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 9 - Module 3 - Lecture 3 - Scaling Function for Haar Wavelet Demo |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 10 - Demonstration 1: Piecewise constant approximation of functions |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 11 - Module 4 - Lecture 1 - Vector Representation of Sequences |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 12 - Module 4 - Lecture 2 - Properties of Norm |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 13 - Module 4 - Lecture 3 - Parseval's Theorem |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 14 - Module 5 - Lecture 1 - Equivalence of sequences and functions |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 15 - Module 5 - Lecture 2 - Angle between Functions and their Decomposition |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 16 - Demonstration 2: Additional Information on Direct-Sum |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 17 - Module 6 - Lecture 1 - Introduction to filter banks |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 18 - Module 6 - Lecture 2 - Haar Analysis Filter Bank in Z-domain |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 19 - Module 6 - Lecture 3 - Haar Synthesis Filter Bank in Z-domain |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 20 - Module 7 - Lecture 1 - Moving from Z-domain to frequency domain |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 21 - Module 7 - Lecture 2 - Frequency Response of Haar Analysis Low pass Filter bank |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 22 - Module 7 - Lecture 3 - Frequency Response of Haar Analysis High pass Filter bank |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 23 - Module 8 - Lecture 1 - Ideal two-band filter bank |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 24 - Module 8 - Lecture 2 - Disqualification of Ideal filter bank |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 25 - Module 8 - Lecture 3 - Realizable two-band filter bank |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 26 - Demonstration 3: Demonstration: DWT of images |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 27 - Module 9 - Lecture 1 - Relating Fourier transform of scaling function to filter bank |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 28 - Module 9 - Lecture 2 - Fourier transform of scaling function |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 29 - Module 9 - Lecture 3 - Construction of scaling and wavelet functions from filter bank |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 30 - Demonstration 4: Demonstration: Constructing scaling and wavelet functions |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 31 - Module 10 - Lecture 1 - Introduction to upsampling and down sampling as Multirate operations |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 32 - Module 10 - Lecture 2 - Up sampling by a general factor M- a Z-domain analysis. |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 33 - Module 10 - Lecture 3 - Down sampling by a general factor M- a Z-domain analysis |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 34 - Module 11 - Lecture 1 - Z domain analysis of 2 channel filter bank. |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 35 - Module 11 - Lecture 2 - Effect of X (-Z) in time domain and aliasing |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 36 - Module 11 - Lecture 3 - Consequences of aliasing and simple approach to avoid it |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 37 - Module 12 - Lecture 1 - Revisiting aliasing and the Idea of perfect reconstruction |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 38 - Module 12 - Lecture 2 - Applying perfect reconstruction and alias cancellation on Haar MRA |
| Link |
NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 39 - Module 12 - Lecture 3 - Introduction to Daubechies family of MRA |
| Link |
NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 40 - Module 13 - Lecture 1 - Power Complementarity of low pass filter |
| Link |
NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 41 - Module 13 - Lecture 2 - Applying perfect reconstruction condition to obtain filter coefficient |
| Link |
NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 42 - Module 14 - Lecture 1 - Effect of minimum phase requirement on filter coefficients |
| Link |
NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 43 - Module 14 - Lecture 2 - Building compactly supported scaling functions |
| Link |
NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 44 - Module 14 - Lecture 3 - Second member of Daubechies family |
| Link |
NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 45 - Module 15 - Lecture 1 - Fourier transform analysis of Haar scaling and Wavelet functions |
| Link |
NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 46 - Module 15 - Lecture 2 - Revisiting Fourier Transform and Parseval's theorem |
| Link |
NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 47 - Module 15 - Lecture 3 - Transform Analysis of Haar Wavelet function |
| Link |
NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 48 - Module 16 - Lecture 1 - Nature of Haar scaling and Wavelet functions in frequency domain |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 49 - Module 16 - Lecture 2 - The Idea of Time-Frequency Resolution |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 50 - Module 16 - Lecture 3 - Some thoughts on Ideal time- frequency domain behavior |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 51 - Module 17 - Lecture 1 - Defining Probability Density function |
| Link |
NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 52 - Module 17 - Lecture 2 - Defining Mean, Variance and containment in a given domain |
| Link |
NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 53 - Module 17 - Lecture 3 - Example: Haar Scaling function |
| Link |
NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 54 - Module 17 - Lecture 4 - Variance from a slightly different perspective |
| Link |
NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 55 - Module 18 - Lecture 1 - Signal transformations: effect on mean and variance |
| Link |
NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 56 - Module 18 - Lecture 2 - Time-Bandwidth product and its properties |
| Link |
NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 57 - Module 18 - Lecture 3 - Simplification of Time-Bandwidth formulae |
| Link |
NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 58 - Module 19 - Lecture 1 - Introduction |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 59 - Module 19 - Lecture 2 - Evaluation of Time-Bandwidth product |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 60 - Module 19 - Lecture 3 - Optimal function in the sense of Time-Bandwidth product |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 61 - Module 20 - Lecture 1 - Discontent with the Optimal function. |
| Link |
NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 62 - Module 20 - Lecture 2 - Journey from infinite to finite Time-Bandwidth product of Haar scaling function |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 63 - Module 20 - Lecture 3 - More insights about Time-Bandwidth product |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 64 - Module 20 - Lecture 4 - Time-frequency plane |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 65 - Module 20 - Lecture 5 - Tiling the Time-frequency plane |
| Link |
NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 66 - Module 21 - Lecture 1 - STFT: Conditions for valid windows |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 67 - Module 21 - Lecture 2 - STFT: Time domain and frequency domain formulations |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 68 - Module 21 - Lecture 3 - STFT: Duality in the interpretations |
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NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 69 - Module 21 - Lecture 4 - Continuous Wavelet Transform (CWT) |
| Link |
NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 70 - Demonstration 5 |
| Link |
NOC:Fundamentals of Wavelets, Filter Banks and Time Frequency Analysis |
Lecture 71 - Students Presentation |
| Link |
NOC:Analog Circuits (2017) |
Lecture 1 - Module 1 - Introduction |
| Link |
NOC:Analog Circuits (2017) |
Lecture 2 - Module 2 - Poles and zeros |
| Link |
NOC:Analog Circuits (2017) |
Lecture 3 - Module 3 - OP-AMPs |
| Link |
NOC:Analog Circuits (2017) |
Lecture 4 - Module 4 - Application of Op-Amps |
| Link |
NOC:Analog Circuits (2017) |
Lecture 5 - Module 5 - Inverting amplifier and Non Inverting amplifier |
| Link |
NOC:Analog Circuits (2017) |
Lecture 6 - Module 1 - Non Idealities in Op-AMP (Finite Gain, Finite Bandwidth and Slew Rate) |
| Link |
NOC:Analog Circuits (2017) |
Lecture 7 - Module 2 - Non Idealities in Op-AMP (Offset Voltage and Bias Current) |
| Link |
NOC:Analog Circuits (2017) |
Lecture 8 - Module 3 - Bode Plot |
| Link |
NOC:Analog Circuits (2017) |
Lecture 9 - Module 4 - Frequency Response |
| Link |
NOC:Analog Circuits (2017) |
Lecture 10 - Module 1 - Frequency Response (High Frequency Response) |
| Link |
NOC:Analog Circuits (2017) |
Lecture 11 - Module 2 - Frequency Response example |
| Link |
NOC:Analog Circuits (2017) |
Lecture 12 - Module 3 - Feedback |
| Link |
NOC:Analog Circuits (2017) |
Lecture 13 - Module 4 - Effects of Feedback |
| Link |
NOC:Analog Circuits (2017) |
Lecture 14 - Tutorial 1 and 2 |
| Link |
NOC:Analog Circuits (2017) |
Lecture 15 - Module 1 - Effect of feedback and stability |
| Link |
NOC:Analog Circuits (2017) |
Lecture 16 - Module 2 - Stability |
| Link |
NOC:Analog Circuits (2017) |
Lecture 17 - Module 3 - Stability and pole location |
| Link |
NOC:Analog Circuits (2017) |
Lecture 18 - Module 4 - Stability and Pole location continuation |
| Link |
NOC:Analog Circuits (2017) |
Lecture 19 - Tutorial 3 |
| Link |
NOC:Analog Circuits (2017) |
Lecture 20 - Module 1 - Gain Margin An example |
| Link |
NOC:Analog Circuits (2017) |
Lecture 21 - Module 2 - Frequency Compensation |
| Link |
NOC:Analog Circuits (2017) |
Lecture 22 - Module 3 - Filters |
| Link |
NOC:Analog Circuits (2017) |
Lecture 23 - Module 4 - Filter prototypes |
| Link |
NOC:Analog Circuits (2017) |
Lecture 24 - Tutorial 4 |
| Link |
NOC:Analog Circuits (2017) |
Lecture 25 - Tutorial 5 |
| Link |
NOC:Analog Circuits (2017) |
Lecture 26 - Tutorial 6 |
| Link |
NOC:Analog Circuits (2017) |
Lecture 27 - Module 1 - Chebyshev Prototype, Filter transformation |
| Link |
NOC:Analog Circuits (2017) |
Lecture 28 - Module 2 - Filter Transformations (Continued....) |
| Link |
NOC:Analog Circuits (2017) |
Lecture 29 - Module 3 - Active Filters |
| Link |
NOC:Analog Circuits (2017) |
Lecture 30 - Module 4 - Non Linear Applications of OPAMPS |
| Link |
NOC:Analog Circuits (2017) |
Lecture 31 - Module 5 - Limiter, Diodes |
| Link |
NOC:Analog Circuits (2017) |
Lecture 32 - Module 1 - Oscillators |
| Link |
NOC:Analog Circuits (2017) |
Lecture 33 - Module 2 - Oscillator Amplitude Control , Quadrature Oscillator |
| Link |
NOC:Analog Circuits (2017) |
Lecture 34 - Module 3 - Multivibators |
| Link |
NOC:Analog Circuits (2017) |
Lecture 35 - Module 4 - Multivibrators (Continued...) |
| Link |
NOC:Analog Circuits (2017) |
Lecture 36 - Module 5 - Monostable Multivibator |
| Link |
NOC:Analog Circuits (2017) |
Lecture 37 - Module 1 - Zener Effect, Rectifiers |
| Link |
NOC:Analog Circuits (2017) |
Lecture 38 - Module 2 - Rectifiers |
| Link |
NOC:Analog Circuits (2017) |
Lecture 39 - Module 3 - Clamper, Peak Rectifier, Super diodes |
| Link |
NOC:Analog Circuits (2017) |
Lecture 40 - Module 4 - BJT DC Circuits |
| Link |
NOC:Analog Circuits (2017) |
Lecture 41 - Module 5 - Current Mirror |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 1 - Microwave Theory and Techniques Introduction - I |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 2 - Microwave Theory and Techniques Introduction - II |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 3 - Microwave Theory and Techniques Introduction - III |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 4 - Effects of Microwaves on Human Body - I |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 5 - Effects of Microwaves on Human Body - II |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 6 - Waveguides - I: Parallel Plane Waveguides |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 7 - Waveguides - II: Parallel Plane Waveguides |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 8 - Waveguides - III: Rectangular Waveguides |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 9 - Transmission Lines - I: Coaxial Cables, Strip Lines and Microstrip Lines |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 10 - Transmission Lines - II: Transmission Line Model, Open and Short Circuited Lossless Transmission Lines |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 11 - Smith Chart and Impedance Matching - I: using Quarter Wave Transformer |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 12 - Smith Chart and Impedance Matching - II: using Lumped Components |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 13 - Smith Chart and Impedance Matching - III: using Short and Open Circuited Stubs |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 14 - ABCD - Parameters |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 15 - S - Parameters |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 16 - Power Dividers - I: Two-way, Three-way and Four-way Equal Power Dividers |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 17 - Power Dividers - II: Unequal, Broadband and Compact Power Dividers |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 18 - Microwave Couplers - I: Coupled Line Directional Couplers |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 19 - Microwave Couplers - II: Branch Line Couplers |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 20 - Microwave Couplers - III: Rat race Coupler and Applications |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 21 - Microwave Filters - I: Filters and Low Pass Butterworth Filter |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 22 - Microwave Filters - II: Low Pass Chebyshev Filters |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 23 - Microwave Filters - III: Microstrip Realization, Transformation from LPF to other Filters |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 24 - Microwave Filters - IV: Band Pass Filters |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 25 - Microwave Filters - V: Coupled Line and Tunable Band Pass Filters |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 26 - Microwave Diodes: PN Junction , Varactor, Schottky, PIN, Tunnel, and GUNN Diodes |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 27 - Microwave Attenuators: Fixed and Variable Attenuators |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 28 - Microwave RF Switches: Series and Shunt SPST |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 29 - Series and Shunt SPDT Switches and Introduction to Phase Shifters |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 30 - Microwave Phase Shifters: Switched and Loaded Line |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 31 - Microwave Transistors: BJT, HBT, JFET, MOSFET, MESFET and HEMT |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 32 - Microwave Amplifiers - I: Basics and Power Gain Expressions |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 33 - Microwave Amplifiers - II: Stability and Constant Gain Circles |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 34 - Microwave Amplifiers - III: Design Example |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 35 - Low Noise Amplifiers - I: Noise Sources and Noise Figure |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 36 - Low Noise Amplifiers - II: NF Circles and LNA Design |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 37 - Power Amplifiers |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 38 - Microwave Tubes - I : Linear Beam Tubes- Two Cavity Klystron |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 39 - Microwave Tubes - II: Linear Beam Tubes- Reflex Klystron and TWT |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 40 - Microwave Tubes - III: Crossed Field Tubes- Magnetron |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 41 - Microwave Oscillators - I |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 42 - Microwave Oscillators - II |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 43 - Microwave Mixers - I: Fundamentals |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 44 - Microwave Mixers - II: Circuits |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 45 - Microwave Mixers - III: Design |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 46 - Fundamentals of Antennas |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 47 - Dipole, Monopole, loop and Slot Antennas |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 48 - Linear and Planar Arrays |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 49 - Microstrip Antennas |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 50 - Horn and Helical Antennas |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 51 - Yagi - Uda, Log-Periodic and Reflector Antennas |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 52 - RF MEMS and Microwave Imaging |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 53 - Microwave Systems |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 54 - Microwave Measurements and Lab Demonstration |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 55 - CST Software Introduction with Filter Design |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 56 - Power Divider and Combiner Design in CST |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 57 - Hybrid Coupler Design |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 58 - Antenna Design and Amplifier Simulation in CST |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 59 - Mixer Design in NI AWR Software - I |
| Link |
NOC:Microwave Theory and Techniques |
Lecture 60 - Mixer Design in NI AWR Software - II |
| Link |
NOC:Principles of Digital Communications |
Lecture 1 - Course Overview |
| Link |
NOC:Principles of Digital Communications |
Lecture 2 - Introduction to Information Theory |
| Link |
NOC:Principles of Digital Communications |
Lecture 3 - Entropy and its properties |
| Link |
NOC:Principles of Digital Communications |
Lecture 4 - Lossless Source Coding Theorem |
| Link |
NOC:Principles of Digital Communications |
Lecture 5 - Prefix Codes and Kraft’s Inequality |
| Link |
NOC:Principles of Digital Communications |
Lecture 6 - Huffman Coding |
| Link |
NOC:Principles of Digital Communications |
Lecture 7 - Discrete Memory-less Channels : Mutual Information |
| Link |
NOC:Principles of Digital Communications |
Lecture 8 - Channel Capacity - I |
| Link |
NOC:Principles of Digital Communications |
Lecture 9 - Channel Capacity - II |
| Link |
NOC:Principles of Digital Communications |
Lecture 10 - Channel Coding Theorem |
| Link |
NOC:Principles of Digital Communications |
Lecture 11 - Differential Entropy - I |
| Link |
NOC:Principles of Digital Communications |
Lecture 12 - Differential Entropy - II |
| Link |
NOC:Principles of Digital Communications |
Lecture 13 - Channel Capacity - III |
| Link |
NOC:Principles of Digital Communications |
Lecture 14 - Channel Capacity - IV |
| Link |
NOC:Principles of Digital Communications |
Lecture 15 - Summary of Information Theory |
| Link |
NOC:Principles of Digital Communications |
Lecture 16 - Signal Space Representations - I |
| Link |
NOC:Principles of Digital Communications |
Lecture 17 - Signal Space Representations - II |
| Link |
NOC:Principles of Digital Communications |
Lecture 18 - Vector Representation of a Random Process |
| Link |
NOC:Principles of Digital Communications |
Lecture 19 - AWGN Vector Channel |
| Link |
NOC:Principles of Digital Communications |
Lecture 20 - Basics of Signal Detection: ML,MAP Detection |
| Link |
NOC:Principles of Digital Communications |
Lecture 21 - ML,MAP Detectors for AWGN Channel |
| Link |
NOC:Principles of Digital Communications |
Lecture 22 - Optimal Receiver: Matched Filter |
| Link |
NOC:Principles of Digital Communications |
Lecture 23 - Probability of error for Optimal Receiver |
| Link |
NOC:Principles of Digital Communications |
Lecture 24 - Probability of Error for M-ary Scheme |
| Link |
NOC:Principles of Digital Communications |
Lecture 25 - Pulse Code Modulation: Quantization |
| Link |
NOC:Principles of Digital Communications |
Lecture 26 - Uniform Quantizer |
| Link |
NOC:Principles of Digital Communications |
Lecture 27 - Step Size and Quantization Noise |
| Link |
NOC:Principles of Digital Communications |
Lecture 28 - Non-uniform Quantizer (Lloyd-Max Quantizer) |
| Link |
NOC:Principles of Digital Communications |
Lecture 29 - Companded Quantization - I |
| Link |
NOC:Principles of Digital Communications |
Lecture 30 - Companded Quantization - II |
| Link |
NOC:Principles of Digital Communications |
Lecture 31 - Differential Pulse Code Modulation DPCM - I |
| Link |
NOC:Principles of Digital Communications |
Lecture 32 - DPCM-II (Linear Prediction) |
| Link |
NOC:Principles of Digital Communications |
Lecture 33 - Delta Modulation |
| Link |
NOC:Principles of Digital Communications |
Lecture 34 - M-ary PCM/PAM - I |
| Link |
NOC:Principles of Digital Communications |
Lecture 35 - M-ary PCM/PAM - II |
| Link |
NOC:Principles of Digital Communications |
Lecture 36 - Line Coding - I |
| Link |
NOC:Principles of Digital Communications |
Lecture 37 - Line Coding - II |
| Link |
NOC:Principles of Digital Communications |
Lecture 38 - Line Coding - III |
| Link |
NOC:Principles of Digital Communications |
Lecture 39 - Pulse Shaping for Zero ISI - I |
| Link |
NOC:Principles of Digital Communications |
Lecture 40 - Pulse Shaping for Zero ISI - II |
| Link |
NOC:Principles of Digital Communications |
Lecture 41 - Pulse Shaping for Zero ISI - III |
| Link |
NOC:Principles of Digital Communications |
Lecture 42 - Partial Response Signaling - I |
| Link |
NOC:Principles of Digital Communications |
Lecture 43 - Partial Response Signaling - II |
| Link |
NOC:Principles of Digital Communications |
Lecture 44 - Principle of Invariance of Probability of Error |
| Link |
NOC:Principles of Digital Communications |
Lecture 45 - Binary ASK and PSK |
| Link |
NOC:Principles of Digital Communications |
Lecture 46 - Binary Frequency Shift Keying - I |
| Link |
NOC:Principles of Digital Communications |
Lecture 47 - Binary Frequency Shift Keying - II |
| Link |
NOC:Principles of Digital Communications |
Lecture 48 - Quadrature Phase Shift Keying - I |
| Link |
NOC:Principles of Digital Communications |
Lecture 49 - Quadrature Phase Shift Keying - II |
| Link |
NOC:Principles of Digital Communications |
Lecture 50 - Quadrature Phase Shift Keying - III |
| Link |
NOC:Principles of Digital Communications |
Lecture 51 - Continuous Phase Frequency Shift Keying |
| Link |
NOC:Principles of Digital Communications |
Lecture 52 - Minimum Shift Keying - I |
| Link |
NOC:Principles of Digital Communications |
Lecture 53 - Minimum Shift Keying - II |
| Link |
NOC:Principles of Digital Communications |
Lecture 54 - M-ary Coherent ASK (M-ASK) |
| Link |
NOC:Principles of Digital Communications |
Lecture 55 - M-ary PSK |
| Link |
NOC:Principles of Digital Communications |
Lecture 56 - M-ary Quadrature Amplitude Modulation (M-QAM) |
| Link |
NOC:Principles of Digital Communications |
Lecture 57 - M-ary FSK |
| Link |
NOC:Principles of Digital Communications |
Lecture 58 - Comparison of M-ary Schemes |
| Link |
NOC:Principles of Digital Communications |
Lecture 59 - Non-coherent BFSK |
| Link |
NOC:Principles of Digital Communications |
Lecture 60 - Differential Phase Shift Keying |
| Link |
NOC:Principles of Digital Communications |
Lecture 61 - Channel Coding - I |
| Link |
NOC:Principles of Digital Communications |
Lecture 62 - Channel Coding - II |
| Link |
NOC:Principles of Digital Communications |
Lecture 63 - Channel Coding - III |
| Link |
NOC:Principles of Digital Communications |
Lecture 64 - Channel Coding: Hamming Codes |
| Link |
NOC:Principles of Digital Communications |
Lecture 65 - Channel Coding: Decoding using Standard Arrays |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 1 - Familiarization with Power Electronic Systems |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 2 - Overview of Basic Power Electronic Circuits from Laymans Point of View |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 3 - Applications, Definitions, and Nature of Power Electronic Circuits |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 4 - Components of a Power Electronic System |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 5 - Analysis of Switched Networks |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 6 - Review of engineering maths for power electronic circuit analysis |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 7 - Review of semiconductor physics |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 8 - P-N Junction |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 9 - Power Diodes |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 10 - Thyristors |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 11 - Motivation for rectifier capacitor filter |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 12 - Circuit Operation |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 13 - Designing the circuit |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 14 - Simulation setup for NgSpice and gEDA schematic capture |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 15 - Simulating the circuit |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 16 - Practicals |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 17 - Inrush current limiting - Intro |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 18 - Inrush current limiting - Resistor solution |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 19 - Inrush current limiting - Thermistor solution |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 20 - Inrush current limiting - Transformer solution |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 21 - Inrush current limiting - MOSFET solution |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 22 - Inrush current limiting - Relay, contactor |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 23 - Three phase rectifier capacitor filter |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 24 - Simulation - 3 phase rectifier capacitor filter |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 25 - Power factor - Motivation |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 26 - Power factor - Discussion |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 27 - Power factor - Sinusoidal |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 28 - Power factor for rectifier cap filter |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 29 - Passive power improvement circuit |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 30 - Simulation - power factor improvement |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 31 - Linear regulators - Intro |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 32 - Shunt regulator |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 33 - Example on shunt regulator |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 34 - Non-ideality and solution |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 35 - Applications of shunt regulator |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 36 - Series regulator |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 37 - Efficiency of series |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 38 - Negative and dual voltage regulators |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 39 - Over current limiting circuits |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 40 - Improvements to series regulator |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 41 - Regulator performance parameters |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 42 - Datasheet of few IC regulators |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 43 - Common IC regulator circuits |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 44 - Practicals 1 |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 45 - Switched mode DC-DC converter intro |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 46 - Volt-sec and Amp-sec balance |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 47 - Input-output relationship |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 48 - Buck converter - operation and waveforms |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 49 - Buck converter - component selection |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 50 - Primary configurations |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 51 - Boost converter |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 52 - Buck-Boost converter |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 53 - Simulating the primary converters |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 54 - Forward converter |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 55 - Core reset in forward converter |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 56 - Simulating with lossy core reset |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 57 - Simulating with lossless core reset |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 58 - Flyback converter |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 59 - Simulating the flyback converter |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 60 - Octave mfile for design |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 61 - Magnetics design intro |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 62 - Magnetics review |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 63 - Permeance |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 64 - Inductor value and energy storage |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 65 - Inductor area product |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 66 - Inductor design |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 67 - Inductor example |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 68 - Transformer design |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 69 - Transformer example |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 70 - Forward converter design mfile |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 71 - Pushpull converter |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 72 - Flux walking in pushpull |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 73 - PWM generation |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 74 - Simulation of pushpull converter |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 75 - Half bridge converter |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 76 - Simulation of halfbridge converter |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 77 - Full bridge converter |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 78 - Simulation of fullbridge converter |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 79 - Area products and mfiles |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 80 - Intro for drive circuits |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 81 - BJT base drive |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 82 - BJT base drive example |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 83 - Multi-stage base drive |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 84 - Base drive with speed-up circuit |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 85 - Base drive with isolation |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 86 - MOSFET gate drive |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 87 - MOSFET drive with isolation |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 88 - Over-current protection |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 89 - Snubber circuits |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 90 - Intro for close loop control |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 91 - Close looping dc-dc converters |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 92 - Simulation of close loop control |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 93 - Current control for battery charger application |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 94 - Instability in current control and slope compensation |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 95 - Slope compensated current control |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 96 - Simulation of current control |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 97 - Single phase inverter with sinusoidal pwm |
| Link |
NOC:Fundamental of Power Electronics |
Lecture 98 - Simulation of sinusoidal PWM |
| Link |
NOC:Electrical Equipment and Machines: Finite Element Analysis |
Lecture 1 - Course Outline and Introduction |
| Link |
NOC:Electrical Equipment and Machines: Finite Element Analysis |
Lecture 2 - Analytical and Numerical Methods |
| Link |
NOC:Electrical Equipment and Machines: Finite Element Analysis |
Lecture 3 - Revisiting EM Concepts: Vector Algebra and Coordinate Systems |
| Link |
NOC:Electrical Equipment and Machines: Finite Element Analysis |
Lecture 4 - Revisiting EM Concepts: Vector Calculus and Electrostatics |
| Link |
NOC:Electrical Equipment and Machines: Finite Element Analysis |
Lecture 5 - Revisiting EM Concepts: Current Densities and Electric Fields in Materials |
| Link |
NOC:Electrical Equipment and Machines: Finite Element Analysis |
Lecture 6 - Revisiting EM Concepts: Electrostatic Boundary Conditions and Shielding |
| Link |
NOC:Electrical Equipment and Machines: Finite Element Analysis |
Lecture 7 - Revisiting EM Concepts: Magnetostatics |
| Link |
NOC:Electrical Equipment and Machines: Finite Element Analysis |
Lecture 8 - Revisiting EM Concepts: Magnetic Forces and Materials |
| Link |
NOC:Electrical Equipment and Machines: Finite Element Analysis |
Lecture 9 - Revisiting EM Concepts: Time Varying Fields |
| Link |
NOC:Electrical Equipment and Machines: Finite Element Analysis |
Lecture 10 - Revisiting EM Concepts: Theory of Eddy Currents |
| Link |
NOC:Electrical Equipment and Machines: Finite Element Analysis |
Lecture 11 - FEM: Variational Approach |
| Link |
NOC:Electrical Equipment and Machines: Finite Element Analysis |
Lecture 12 - Finding Functional for PDEs |
| Link |
NOC:Electrical Equipment and Machines: Finite Element Analysis |
Lecture 13 - Whole Domain Approximation |
| Link |
NOC:Electrical Equipment and Machines: Finite Element Analysis |
Lecture 14 - 1D FEM: Problem Definition and Shape Function |
| Link |
NOC:Electrical Equipment and Machines: Finite Element Analysis |
Lecture 15 - 1D FEM: Procedure |
| Link |
NOC:Electrical Equipment and Machines: Finite Element Analysis |
Lecture 16 - 1D FEM: Scilab Code |
| Link |
NOC:Electrical Equipment and Machines: Finite Element Analysis |
Lecture 17 - 2D FEM: Problem Definition and Shape Functions |
| Link |
NOC:Electrical Equipment and Machines: Finite Element Analysis |
Lecture 18 - 2D FEM: Procedure |
| Link |
NOC:Electrical Equipment and Machines: Finite Element Analysis |
Lecture 19 - 2D FEM Scilab Code: Manual Meshing |
| Link |
NOC:Electrical Equipment and Machines: Finite Element Analysis |
Lecture 20 - 2D FEM Code: Gmsh and Scilab |
| Link |
NOC:Electrical Equipment and Machines: Finite Element Analysis |
Lecture 21 - Computation of B and H Field and Method of Weighted Residuals |
| Link |
NOC:Electrical Equipment and Machines: Finite Element Analysis |
Lecture 22 - Galerkin Method |
| Link |
NOC:Electrical Equipment and Machines: Finite Element Analysis |
Lecture 23 - Calculation of Leakage Inductance of a Transformer |
| Link |
NOC:Electrical Equipment and Machines: Finite Element Analysis |
Lecture 24 - Calculation of Inductance of an Induction Motor and a Gapped-Core Shunt Reactor |
| Link |
NOC:Electrical Equipment and Machines: Finite Element Analysis |
Lecture 25 - Insulation Design Using FE Analysis |
| Link |
NOC:Electrical Equipment and Machines: Finite Element Analysis |
Lecture 26 - Quadratic Finite Elements |
| Link |
NOC:Electrical Equipment and Machines: Finite Element Analysis |
Lecture 27 - Time Harmonic FE Analysis |
| Link |
NOC:Electrical Equipment and Machines: Finite Element Analysis |
Lecture 28 - Calculation of Eddy Current Losses |
| Link |
NOC:Electrical Equipment and Machines: Finite Element Analysis |
Lecture 29 - Eddy Losses in Transformer Windings |
| Link |
NOC:Electrical Equipment and Machines: Finite Element Analysis |
Lecture 30 - Torque Speed Characteristics of an Induction Motor and FE Analysis of Axisymmetric Problem |
| Link |
NOC:Electrical Equipment and Machines: Finite Element Analysis |
Lecture 31 - Permanent Magnets: Theory |
| Link |
NOC:Electrical Equipment and Machines: Finite Element Analysis |
Lecture 32 - Permanent Magnets: FEM Implementation |
| Link |
NOC:Electrical Equipment and Machines: Finite Element Analysis |
Lecture 33 - Periodic and Antiperiodic Boundary Conditions in Rotating Machines |
| Link |
NOC:Electrical Equipment and Machines: Finite Element Analysis |
Lecture 34 - FE Analysis of Rotating Machines |
| Link |
NOC:Electrical Equipment and Machines: Finite Element Analysis |
Lecture 35 - Voltage Fed Coupled Circuit Field Analysis |
| Link |
NOC:Electrical Equipment and Machines: Finite Element Analysis |
Lecture 36 - Current Fed Coupled Circuit Field Analysis |
| Link |
NOC:Electrical Equipment and Machines: Finite Element Analysis |
Lecture 37 - Transient FE Analysis |
| Link |
NOC:Electrical Equipment and Machines: Finite Element Analysis |
Lecture 38 - Nonlinear FE Analysis |
| Link |
NOC:Electrical Equipment and Machines: Finite Element Analysis |
Lecture 39 - Computation of Forces using Maxwell Stress Tensor |
| Link |
NOC:Electrical Equipment and Machines: Finite Element Analysis |
Lecture 40 - Computation of force using virtual work method |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 1 - Introduction: Digital signal processing and its objectives |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 2 - Introduction to sampling and Fourier Transform |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 3 - Sampling of sine wave and associate complication |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 4 - Review of Sampling Theorem |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 5 - Idealized Sampling, Reconstruction |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 6 - Filters And Discrete System |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 7 - Answering questions from previous lectures |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 8 - Desired requirements for discrete system |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 9 - Introduction to phasors |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 10 - Advantages of phasors in discrete systems |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 11 - What do we want from a discrete system? |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 12 - Linearity - Homogeneity and Additivity |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 13 - Shift Invariance and Characterization of LTI systems |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 14 - Characterization of LSI system using it’s impulse response |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 15 - Introduction to convolution |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 16 - Convolution: Deeper ideas and understanding |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 17 - Characterisation of LSI systems, Convolution-properties |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 18 - Response of LSI Systems to Complex Sinusoids |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 19 - Convergence of Convolution and Bibo Stability |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 20 - Commutativity and Associativity |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 21 - BIBO Stability of an LSI system |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 22 - Causality and memory of an LSI system |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 23 - Frequency response of an LSI system |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 24 - Introduction and conditions of Stability |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 25 - Vectors and Inner Product |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 26 - Interpretation of Frequency Response as Dot Product |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 27 - Interpretation of Frequency Response as Eigenvalues |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 28 - Discrete time fourier transform |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 29 - DTFT in LSI System and Convolution Theorem. |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 30 - Definitions of sequences and Properties of DTFT |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 31 - Introduction to DTFT, IDTFT |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 32 - Dual to convolution property |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 33 - Multiplication Property, Introduction to Parseval’s theorem |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 34 - Introduction and Property of DTFT |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 35 - Review of Inverse DTFT |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 36 - Parseval’s Theorem and energy and time spectral density |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 37 - Discussion on Unit Step |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 38 - Introduction to Z transform |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 39 - Example of Z transform |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 40 - Region of Convergence |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 41 - Properties of Z transform |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 42 - Z- Transform |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 43 - Rational System |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 44 - Introduction and Examples of Rational Z Transform and their Inverses |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 45 - Double Pole Examples and their Inverse Z Transform |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 46 - Partial Fraction Decomposition |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 47 - LSI System Examples |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 48 - Why are Rational Systems so important? |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 49 - Solving Linear constant coefficient difference equations which are valid over a finite range of time |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 50 - Introduction to Resonance in Rational Systems |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 51 - Characterization of Rational LSI system |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 52 - Causality and stability of the ROC of the system function |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 53 - Recap of Rational Systems and Discrete Time Filters |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 54 - Specifications for Filter Design |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 55 - Four Ideal Piecewise Constant Filters |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 56 - Important Characteristics Of Ideal Filters |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 57 - Synthesis of Discrete Time Filters, Realizable specifications |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 58 - Realistic Specifications for low pass filter. Filter Design Process |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 59 - Introduction to Filter Design. Analog IIR Filter,FIR discrete-time filter, IIR discrete-time filter |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 60 - Analog to discrete transform |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 61 - Intuitive transforms, Bilinear Transformation |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 62 - Steps for IIR filter design |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 63 - Analog filter design using Butterworth Approximation |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 64 - Butterworth filter Derivation And Analysis of butterworth system function |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 65 - Chebychev filter Derivation |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 66 - Midsem paper review discussion |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 67 - The Chebyschev Approximation |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 68 - Next step in design: Obtain poles |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 69 - Introduction to Frequency Transformations in the Analog Domain |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 70 - High pass transformation |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 71 - Band pass transformation |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 72 - Frequency Transformation |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 73 - Different types of filters |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 74 - Impulse invariant method and ideal impulse response |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 75 - Design of FIR of length (2N+1) by the truncation method,Plotting the function V(w) |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 76 - IIR filter using rectangular window, IIR filter using triangular window |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 77 - Proof that frequency response of an fir filter using rectangular window function centred at 0 is real |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 78 - Introduction to window functions |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 79 - Examples of window functions |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 80 - Explanation of Gibb’s Phenomenon and it’s application |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 81 - Comparison of FIR And IIR Filter’s |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 82 - Comparison of FIR And IIR Filter’s |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 83 - Comparison of FIR And IIR Filter’s |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 84 - Introduction and approach to realization (causal rational system) |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 85 - Comprehension of Signal Flow Graphs and Achievement of Pseudo Assembly Language Code |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 86 - Introduction to IIR Filter Realization and Cascade Structure |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 87 - Cascade Parallel Structure |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 88 - Lattice Structure |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 89 - Recap And Review of Lattice Structure, Realization of FIR Function |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 90 - Backward recursion, Change in the recursive equation of lattice |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 91 - Lattice structure for an arbitrary rational system |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 92 - Example realization of lattice structure for rational system |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 93 - Introductory Remarks of Discrete Fourier Transform and Frequency Domain Sampling |
| Link |
NOC:Digital Signal Processing and its Applications |
Lecture 94 - Principle of Duality, The Circular Convolution |
| Link |
NOC:Stochastic Control and Communication |
Lecture 1 - Decision Making under Uncertainty |
| Link |
NOC:Stochastic Control and Communication |
Lecture 2 - Expected Utility Theory - I |
| Link |
NOC:Stochastic Control and Communication |
Lecture 3 - Expected Utility Theory - II |
| Link |
NOC:Stochastic Control and Communication |
Lecture 4 - Expected Utility Theory - III |
| Link |
NOC:Stochastic Control and Communication |
Lecture 5 - Role of Information in Decision Making |
| Link |
NOC:Stochastic Control and Communication |
Lecture 6 - State Space Modelling of Sequential Decision Making, Example of Inventory Control |
| Link |
NOC:Stochastic Control and Communication |
Lecture 7 - Inventory Control Problem (Continued...) |
| Link |
NOC:Stochastic Control and Communication |
Lecture 8 - Policy-A Closed Loop Solution to Stochastic Control Problem |
| Link |
NOC:Stochastic Control and Communication |
Lecture 9 - Introduction to Markov Decision Processes (MDP) |
| Link |
NOC:Stochastic Control and Communication |
Lecture 10 - Types of Policy in MDP |
| Link |
NOC:Stochastic Control and Communication |
Lecture 11 - Interpreting randomised decision rules |
| Link |
NOC:Stochastic Control and Communication |
Lecture 12 - Stationary Transition Probability: State Diagram Representation and example of Markov policies |
| Link |
NOC:Stochastic Control and Communication |
Lecture 13 - Example of History Dependent Policies |
| Link |
NOC:Stochastic Control and Communication |
Lecture 14 - Complexity of the problem using brute force approach |
| Link |
NOC:Stochastic Control and Communication |
Lecture 15 - Principle of Optimality |
| Link |
NOC:Stochastic Control and Communication |
Lecture 16 - Dynamic Programming Algorithm |
| Link |
NOC:Stochastic Control and Communication |
Lecture 17 - DP Algo applied to Inventory Control Problem |
| Link |
NOC:Stochastic Control and Communication |
Lecture 18 - DP Algo applied to Inventory Control Problem (Continued...) |
| Link |
NOC:Stochastic Control and Communication |
Lecture 19 - DP Algo applied to Inventory Control Problem (Continued...) |
| Link |
NOC:Stochastic Control and Communication |
Lecture 20 - Optimal Stopping Problem |
| Link |
NOC:Stochastic Control and Communication |
Lecture 21 - Optimal Stopping Example: Secretary Problem |
| Link |
NOC:Stochastic Control and Communication |
Lecture 22 - Optimal Stopping Example: Secretary Problem (Continued...) |
| Link |
NOC:Stochastic Control and Communication |
Lecture 23 - Optimal Stopping Example: Secretary Problem (Continued...) |
| Link |
NOC:Stochastic Control and Communication |
Lecture 24 - Linear System Quadratic Cost Problem |
| Link |
NOC:Stochastic Control and Communication |
Lecture 25 - Linear System Quadratic Cost Problem (Continued...) |
| Link |
NOC:Stochastic Control and Communication |
Lecture 26 - Solving it via DP algorithm (Continued...) |
| Link |
NOC:Stochastic Control and Communication |
Lecture 27 - Equivalence between Optimal HR Policyand optimal Markov Deterministic Policy |
| Link |
NOC:Stochastic Control and Communication |
Lecture 28 - Stochastic Control under incomplete state information |
| Link |
NOC:Stochastic Control and Communication |
Lecture 29 - Stochastic Control under incomplete state information (Continued...) |
| Link |
NOC:Stochastic Control and Communication |
Lecture 30 - Stochastic Control under incomplete state information: Example |
| Link |
NOC:Stochastic Control and Communication |
Lecture 31 - Stochastic Control under incomplete state information: Example (Continued...) |
| Link |
NOC:Stochastic Control and Communication |
Lecture 32 - Stochastic Control under incomplete state information: Example (Continued...) |
| Link |
NOC:Stochastic Control and Communication |
Lecture 33 - Stochastic Control under incomplete state information: Example (Continued...) |
| Link |
NOC:Stochastic Control and Communication |
Lecture 34 - LQ systems with Imperfect Information - I |
| Link |
NOC:Stochastic Control and Communication |
Lecture 35 - LQ systems with Imperfect Information - II |
| Link |
NOC:Stochastic Control and Communication |
Lecture 36 - LQ systems with Imperfect Information - III |
| Link |
NOC:Stochastic Control and Communication |
Lecture 37 - LQ systems with Imperfect Information - IV |
| Link |
NOC:Stochastic Control and Communication |
Lecture 38 - Filtering - I |
| Link |
NOC:Stochastic Control and Communication |
Lecture 39 - Filtering - II |
| Link |
NOC:Stochastic Control and Communication |
Lecture 40 - Kalman Filtering - I |
| Link |
NOC:Stochastic Control and Communication |
Lecture 41 - Kalman Filtering - II |
| Link |
NOC:Stochastic Control and Communication |
Lecture 42 - Kalman Filtering - III |
| Link |
NOC:Stochastic Control and Communication |
Lecture 43 - Belief State Formulation - I |
| Link |
NOC:Stochastic Control and Communication |
Lecture 44 - Belief State Formulation - II |
| Link |
NOC:Stochastic Control and Communication |
Lecture 45 - Information Structures - I |
| Link |
NOC:Stochastic Control and Communication |
Lecture 46 - Information Structures - II |
| Link |
NOC:Stochastic Control and Communication |
Lecture 47 - Witsenhausen Problem - I |
| Link |
NOC:Stochastic Control and Communication |
Lecture 48 - Witsenhausen Problem - II |
| Link |
NOC:Stochastic Control and Communication |
Lecture 49 - Witsenhausen Problem - III |
| Link |
NOC:Stochastic Control and Communication |
Lecture 50 - Witsenhausen Problem - IV |
| Link |
NOC:Stochastic Control and Communication |
Lecture 51 - Witsenhausen Problem - V |
| Link |
NOC:Stochastic Control and Communication |
Lecture 52 - Witsenhausen Problem - VI |
| Link |
NOC:Stochastic Control and Communication |
Lecture 53 - Witsenhausen Problem - VII |
| Link |
NOC:Stochastic Control and Communication |
Lecture 54 - Team Decision Theory - I |
| Link |
NOC:Stochastic Control and Communication |
Lecture 55 - Team Decision Theory - II |
| Link |
NOC:Stochastic Control and Communication |
Lecture 56 - Team Decision Theory - III |
| Link |
NOC:Stochastic Control and Communication |
Lecture 57 - Team Decision Theory - IV |
| Link |
NOC:Stochastic Control and Communication |
Lecture 58 - Team Decision Theory - V |
| Link |
NOC:Stochastic Control and Communication |
Lecture 59 - Team Decision Theory - VI |
| Link |
NOC:Stochastic Control and Communication |
Lecture 60 - Team Decision Theory - VII |
| Link |
NOC:Stochastic Control and Communication |
Lecture 61 - Communication Theory - I |
| Link |
NOC:Stochastic Control and Communication |
Lecture 62 - Communication Theory - II |
| Link |
NOC:Stochastic Control and Communication |
Lecture 63 - Communication Theory - III |
| Link |
NOC:Stochastic Control and Communication |
Lecture 64 - Communication Theory - IV |
| Link |
NOC:Stochastic Control and Communication |
Lecture 65 - Communication Theory - V |
| Link |
Circuit Theory |
Lecture 1 - Review of Signals and Systems |
| Link |
Circuit Theory |
Lecture 2 - Review of Signals and Systems |
| Link |
Circuit Theory |
Lecture 3 - Network Equations; Initial and Final Conditions |
| Link |
Circuit Theory |
Lecture 4 - Problem Session 1 |
| Link |
Circuit Theory |
Lecture 5 - Step, Impulse and Complete Responses |
| Link |
Circuit Theory |
Lecture 6 - 2nd Order Circuits:Magnetically Coupled Circuits |
| Link |
Circuit Theory |
Lecture 7 - Transformer Transform Domain Analysis |
| Link |
Circuit Theory |
Lecture 8 - Problem Session 2 : Step,Impulse |
| Link |
Circuit Theory |
Lecture 9 - Network Theorems and Network Functions |
| Link |
Circuit Theory |
Lecture 10 - Network Functions (Continued.) |
| Link |
Circuit Theory |
Lecture 11 - Amplitude and Phase of Network Functions |
| Link |
Circuit Theory |
Lecture 12 - Problem Session 3 : Network Theorems Transform |
| Link |
Circuit Theory |
Lecture 13 - Poles, Zeros and Network Response |
| Link |
Circuit Theory |
Lecture 14 - Single Tuned Circuits |
| Link |
Circuit Theory |
Lecture 15 - Single Tuned Circuits (Continued.) |
| Link |
Circuit Theory |
Lecture 16 - Double Tuned Circuits |
| Link |
Circuit Theory |
Lecture 17 - Double Tuned Circuits (Continued.) |
| Link |
Circuit Theory |
Lecture 18 - Problem Session 4 : Network Functions, Analysis |
| Link |
Circuit Theory |
Lecture 19 - Double Tuned Circuits (Continued.) |
| Link |
Circuit Theory |
Lecture 20 - Concept of Delay and Introduction |
| Link |
Circuit Theory |
Lecture 21 - Two-port Networks (Continued.) |
| Link |
Circuit Theory |
Lecture 22 - Problem Session 5 |
| Link |
Circuit Theory |
Lecture 23 - Minor - 1 |
| Link |
Circuit Theory |
Lecture 24 - The Hybrid & Transmission Parameters of 2 ports |
| Link |
Circuit Theory |
Lecture 25 - Problem Session 6 : Two - port networks |
| Link |
Circuit Theory |
Lecture 26 - Two - port Network parameters |
| Link |
Circuit Theory |
Lecture 27 - Two-port Interconnections |
| Link |
Circuit Theory |
Lecture 28 - Interconnection of Two-port Networks (Continued.) |
| Link |
Circuit Theory |
Lecture 29 - Problem Session 7 : Two-port Networks (Continued.) |
| Link |
Circuit Theory |
Lecture 30 - Scattering Matrix |
| Link |
Circuit Theory |
Lecture 31 - Scattering Parameters of a Two-port |
| Link |
Circuit Theory |
Lecture 32 - Problem Session 8 : Two- port Parameters |
| Link |
Circuit Theory |
Lecture 33 - Solutions of Minor - 2 Problems |
| Link |
Circuit Theory |
Lecture 34 - Insertion Loss |
| Link |
Circuit Theory |
Lecture 35 - Example of Insertion Loss and Elements |
| Link |
Circuit Theory |
Lecture 36 - Elements of Realizability Theory (Continued.) |
| Link |
Circuit Theory |
Lecture 37 - Positive Real Functions |
| Link |
Circuit Theory |
Lecture 38 - Testing of Positive Real Functions |
| Link |
Circuit Theory |
Lecture 39 - Problem Session 9 |
| Link |
Circuit Theory |
Lecture 40 - More on PRF's and their Synthesis |
| Link |
Circuit Theory |
Lecture 41 - LC Driving Point Functions |
| Link |
Circuit Theory |
Lecture 42 - LC Driving Point Synthesis (Continued.) |
| Link |
Circuit Theory |
Lecture 43 - RC and RL Driving Point Synthesis |
| Link |
Circuit Theory |
Lecture 44 - Problem Session 10 : LC Driving Point Synthesis |
| Link |
Circuit Theory |
Lecture 45 - RC & RL One-port Synthesis (Continued.) |
| Link |
Circuit Theory |
Lecture 46 - Elementary RLC One-port Synthesis |
| Link |
Circuit Theory |
Lecture 47 - Properties and Synthesis of Transfer Parameters |
| Link |
Circuit Theory |
Lecture 48 - Resistance Terminated LC Ladder |
| Link |
Circuit Theory |
Lecture 49 - Resistance Terminated LC Ladder (Continued.) |
| Link |
Circuit Theory |
Lecture 50 - Problem session 11: Two-port Synthesis |
| Link |
Circuit Theory |
Lecture 51 - Network Transmission Criteria |
| Link |
Control Engineering (Prof. M. Gopal) |
Lecture 1 - Introduction to control problem |
| Link |
Control Engineering (Prof. M. Gopal) |
Lecture 2 - Basic Feedback Structure |
| Link |
Control Engineering (Prof. M. Gopal) |
Lecture 3 - Introduction to Control Problem (Continued.) |
| Link |
Control Engineering (Prof. M. Gopal) |
Lecture 4 - Dynamic Systems and Dynamic Response |
| Link |
Control Engineering (Prof. M. Gopal) |
Lecture 5 - Dynamic Systems and Dynamic Response (Continued.) |
| Link |
Control Engineering (Prof. M. Gopal) |
Lecture 6 - Dynamic Systems and Dynamic Response (Continued.) |
| Link |
Control Engineering (Prof. M. Gopal) |
Lecture 7 - Dynamic Systems and Dynamic Response (Continued.) |
| Link |
Control Engineering (Prof. M. Gopal) |
Lecture 8 - Dynamic Systems and Dynamic Response (Continued.) |
| Link |
Control Engineering (Prof. M. Gopal) |
Lecture 9 - Dynamic Systems and Dynamic Response (Continued.) |
| Link |
Control Engineering (Prof. M. Gopal) |
Lecture 10 - Models of Industrial Control Devices and Systems |
| Link |
Control Engineering (Prof. M. Gopal) |
Lecture 11 - Models of Industrial Control Devices and Systems (Continued.) |
| Link |
Control Engineering (Prof. M. Gopal) |
Lecture 12 - Models of Industrial Control Devices and Systems( Continued.) |
| Link |
Control Engineering (Prof. M. Gopal) |
Lecture 13 - Models of Industrial Control Devices and Systems( Continued.) |
| Link |
Control Engineering (Prof. M. Gopal) |
Lecture 14 - Models of Industrial Control Devices and Systems( Continued.) |
| Link |
Control Engineering (Prof. M. Gopal) |
Lecture 15 - Models of Industrial Control Devices and Systems( Continued.) |
| Link |
Control Engineering (Prof. M. Gopal) |
Lecture 16 - Models of Industrial Control Devices and Systems (Continued.) |
| Link |
Control Engineering (Prof. M. Gopal) |
Lecture 17 - Models of Industrial Control Devices and Systems (Continued.) |
| Link |
Control Engineering (Prof. M. Gopal) |
Lecture 18 - Models of Industrial Control Devices and Systems (Continued.) |
| Link |
Control Engineering (Prof. M. Gopal) |
Lecture 19 - Basic Principles of Feedback Control |
| Link |
Control Engineering (Prof. M. Gopal) |
Lecture 20 - Basic Principles of Feedback Control (Continued.) |
| Link |
Control Engineering (Prof. M. Gopal) |
Lecture 21 - Basic Principles of Feedback Control (Continued.) |
| Link |
Control Engineering (Prof. M. Gopal) |
Lecture 22 - Basic Principles of Feedback Control (Continued.) |
| Link |
Control Engineering (Prof. M. Gopal) |
Lecture 23 - Concepts of stability and Routh Stability Criterion |
| Link |
Control Engineering (Prof. M. Gopal) |
Lecture 24 - Concepts of stability and Routh Stability Criterion (Continued.) |
| Link |
Control Engineering (Prof. M. Gopal) |
Lecture 25 - Concepts of stability and Routh Stability Criterion (Continued.) |
| Link |
Control Engineering (Prof. M. Gopal) |
Lecture 26 - The Performance of Feedback Systems |
| Link |
Control Engineering (Prof. M. Gopal) |
Lecture 27 - The Performance of Feedback Systems (Continued.) |
| Link |
Control Engineering (Prof. M. Gopal) |
Lecture 28 - The Performance of Feedback Systems (Continued.) |
| Link |
Control Engineering (Prof. M. Gopal) |
Lecture 29 - The Performance of Feedback Systems (Continued.) |
| Link |
Control Engineering (Prof. M. Gopal) |
Lecture 30 - Compensator Design Using Root Locus Plots |
| Link |
Control Engineering (Prof. M. Gopal) |
Lecture 31 - Compensator Design Using Root Locus Plots (Continued.) |
| Link |
Control Engineering (Prof. M. Gopal) |
Lecture 32 - Compensator Design Using Root Locus Plots (Continued.) |
| Link |
Control Engineering (Prof. M. Gopal) |
Lecture 33 - Compensator Design Using Root Locus Plots (Continued.) |
| Link |
Control Engineering (Prof. M. Gopal) |
Lecture 34 - Compensator Design Using Root Locus Plots (Continued.) |
| Link |
Control Engineering (Prof. M. Gopal) |
Lecture 35 - The Nyquist Stability Criterion and Stability Margins |
| Link |
Control Engineering (Prof. M. Gopal) |
Lecture 36 - The Nyquist Stability Criterion and Stability Margins (Continued.) |
| Link |
Control Engineering (Prof. M. Gopal) |
Lecture 37 - The Nyquist Stability Criterion and Stability Margins (Continued.) |
| Link |
Control Engineering (Prof. M. Gopal) |
Lecture 38 - The Nyquist Stability Criterion and Stability Margins (Continued.) |
| Link |
Control Engineering (Prof. M. Gopal) |
Lecture 39 - Feedback System Performance Based on the Frequency Response |
| Link |
Control Engineering (Prof. M. Gopal) |
Lecture 40 - Feedback System Performance Based on the Frequency Response (Continued.) |
| Link |
Control Engineering (Prof. M. Gopal) |
Lecture 41 - Compensator Design Using Frequency Response Plots |
| Link |
Embedded Systems |
Lecture 1 - Embedded Systems: Introduction |
| Link |
Embedded Systems |
Lecture 2 - Embedded Hardware |
| Link |
Embedded Systems |
Lecture 3 - PIC: Instruction Set |
| Link |
Embedded Systems |
Lecture 4 - PIC Peripherals On Chip |
| Link |
Embedded Systems |
Lecture 5 - ARM Processor |
| Link |
Embedded Systems |
Lecture 6 - More ARM Instructions |
| Link |
Embedded Systems |
Lecture 7 - ARM: Interrupt Processing |
| Link |
Embedded Systems |
Lecture 8 - Digital Signal Processors |
| Link |
Embedded Systems |
Lecture 9 - More on DSP Processors |
| Link |
Embedded Systems |
Lecture 10 - System On Chip (SOC) |
| Link |
Embedded Systems |
Lecture 11 - Memory |
| Link |
Embedded Systems |
Lecture 12 - Memory Organization |
| Link |
Embedded Systems |
Lecture 13 - Virtual Memory and Memory Management Unit |
| Link |
Embedded Systems |
Lecture 14 - Bus Structure |
| Link |
Embedded Systems |
Lecture 15 - Bus Structure - 2 |
| Link |
Embedded Systems |
Lecture 16 - Bus Structure - 3 Serial Interfaces |
| Link |
Embedded Systems |
Lecture 17 - Serial Interfaces |
| Link |
Embedded Systems |
Lecture 18 - Power Aware Architecture |
| Link |
Embedded Systems |
Lecture 19 - Software for Embedded Systems |
| Link |
Embedded Systems |
Lecture 20 - Fundamentals of Embedded Operating Systems |
| Link |
Embedded Systems |
Lecture 21 - Scheduling Policies |
| Link |
Embedded Systems |
Lecture 22 - Resource Management |
| Link |
Embedded Systems |
Lecture 23 - Embedded - OS |
| Link |
Embedded Systems |
Lecture 24 - Networked Embedded Systems - I |
| Link |
Embedded Systems |
Lecture 25 - Networked Embedded Systems - II |
| Link |
Embedded Systems |
Lecture 26 - Networked Embedded Systems - III |
| Link |
Embedded Systems |
Lecture 27 - Networked Embedded Systems - IV |
| Link |
Embedded Systems |
Lecture 28 - Designing Embedded Systems - I |
| Link |
Embedded Systems |
Lecture 29 - Designing Embedded Systems - II |
| Link |
Embedded Systems |
Lecture 30 - Designing Embedded Systems- III |
| Link |
Embedded Systems |
Lecture 31 - Embedded System Design - IV |
| Link |
Embedded Systems |
Lecture 32 - Designing Embedded Systems - V |
| Link |
Embedded Systems |
Lecture 33 - Platform Based Design |
| Link |
Embedded Systems |
Lecture 34 - Compilers for Embedded Systems |
| Link |
Embedded Systems |
Lecture 35 - Developing Embedded Systems |
| Link |
Embedded Systems |
Lecture 36 - Building Dependable Embedded Systems |
| Link |
Embedded Systems |
Lecture 37 - Pervasive and Ubiquitous Computing |
| Link |
Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) |
Lecture 1 - Electric Energy Systems A Perspective |
| Link |
Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) |
Lecture 2 - Structure of Power Systems |
| Link |
Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) |
Lecture 3 - Conventional Sources of Electric Energy |
| Link |
Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) |
Lecture 4 - Hydroelectric Power Generation |
| Link |
Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) |
Lecture 5 - Non Conventional Energy Sources |
| Link |
Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) |
Lecture 6 - Renewable Energy (Continued.) |
| Link |
Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) |
Lecture 7 - Energy Storage |
| Link |
Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) |
Lecture 8 - Deregulation |
| Link |
Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) |
Lecture 9 - Air Pollutants |
| Link |
Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) |
Lecture 10 - Transmission Line Parameters |
| Link |
Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) |
Lecture 11 - Capacitance of Transmission Lines |
| Link |
Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) |
Lecture 12 - Characteristics and Performance of Transmission Lines |
| Link |
Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) |
Lecture 13 - Voltage Regulation (VR) |
| Link |
Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) |
Lecture 14 - Power Flow through a Line |
| Link |
Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) |
Lecture 15 - Methods of Voltage Control |
| Link |
Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) |
Lecture 16 - Compensation of Transmission Lines |
| Link |
Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) |
Lecture 17 - Compensation of Transmission Lines (Continued.) |
| Link |
Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) |
Lecture 18 - Underground Cables |
| Link |
Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) |
Lecture 19 - Cables (Continued.) |
| Link |
Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) |
Lecture 20 - Insulators for Overhead Lines |
| Link |
Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) |
Lecture 21 - HVDC |
| Link |
Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) |
Lecture 22 - HVDC (Continued.) |
| Link |
Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) |
Lecture 23 - Distribution Systems |
| Link |
Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) |
Lecture 24 - Automatic Generation Control |
| Link |
Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) |
Lecture 25 - Automatic Generation Control (Continued.) |
| Link |
Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) |
Lecture 26 - Load Flow Studies |
| Link |
Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) |
Lecture 27 - Load Flow Problem |
| Link |
Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) |
Lecture 28 - Load Flow Analysis (Continued.), Gauss Siedel Method |
| Link |
Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) |
Lecture 29 - Newton Raphson (NR), Load Flow Method |
| Link |
Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) |
Lecture 30 - Fast Decoupled Load Flow |
| Link |
Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) |
Lecture 31 - Control of Voltage Profile |
| Link |
Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) |
Lecture 32 - Optimal System Operation (Economic Operation) |
| Link |
Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) |
Lecture 33 - Optimal Unit Commitment |
| Link |
Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) |
Lecture 34 - Optimal Generation Scheduling |
| Link |
Power System Generation, Transmission and Distribution (Encapsulated from earlier Video) |
Lecture 35 - Optimal Load Flow (Continued.) and Hydro Thermal Scheduling |
| Link |
Power System Dynamics |
Lecture 1 - Introduction to Power System Stability Problem - Part-1 |
| Link |
Power System Dynamics |
Lecture 2 - Introduction to Power System Stability Problem - Part-2 |
| Link |
Power System Dynamics |
Lecture 3 - Introduction to Power System Stability Problem - Part-3 |
| Link |
Power System Dynamics |
Lecture 4 - Solution of Switching Equation |
| Link |
Power System Dynamics |
Lecture 5 - The Equal Area Criterion for Stability - Part-1 |
| Link |
Power System Dynamics |
Lecture 6 - The Equal Area Criterion for Stability - Part-2 |
| Link |
Power System Dynamics |
Lecture 7 - Transient Stability Analysis of a Multi Machine System |
| Link |
Power System Dynamics |
Lecture 8 - Modeling of Synchronous Machine - Part-1 |
| Link |
Power System Dynamics |
Lecture 9 - Modeling of Synchronous Machine - Part-2 |
| Link |
Power System Dynamics |
Lecture 10 - Modeling of Synchronous Machine - Part-3 |
| Link |
Power System Dynamics |
Lecture 11 - Modeling of Synchronous Machine - Part-4 |
| Link |
Power System Dynamics |
Lecture 12 - Synchronous Machine Representation for Stability Studies - Part-1 |
| Link |
Power System Dynamics |
Lecture 13 - Synchronous Machine Representation for Stability Studies - Part-2 |
| Link |
Power System Dynamics |
Lecture 14 - Excitation Systems - Part-1 |
| Link |
Power System Dynamics |
Lecture 15 - Excitation Systems - Part-2 |
| Link |
Power System Dynamics |
Lecture 16 - Modeling of Excitation Systems - Part-1 |
| Link |
Power System Dynamics |
Lecture 17 - Modeling of Excitation Systems - Part-2 |
| Link |
Power System Dynamics |
Lecture 18 - Small Signal Stability of a Single Machine Infinite Bus System - Part-1 |
| Link |
Power System Dynamics |
Lecture 19 - Small Signal Stability of a Single Machine Infinite Bus System - Part-2 |
| Link |
Power System Dynamics |
Lecture 20 - Small Signal Stability of a Single Machine Infinite Bus System - Part-3 |
| Link |
Power System Dynamics |
Lecture 21 - Small Signal Stability of a Single Machine Infinite Bus System - Part-4 |
| Link |
Power System Dynamics |
Lecture 22 - Small Signal Stability of a Single Machine Infinite Bus System - Part-5 |
| Link |
Power System Dynamics |
Lecture 23 - Dynamic Modeling of Steam turbines and Governors |
| Link |
Power System Dynamics |
Lecture 24 - Dynamic modeling of Hydro Turbines and Governors |
| Link |
Power System Dynamics |
Lecture 25 - Load modeling for Stability Studies |
| Link |
Power System Dynamics |
Lecture 26 - Numerical Integration Methods for Solving a Set of Ordinary Nonlinear Differential Equation |
| Link |
Power System Dynamics |
Lecture 27 - Simulation of Power System Dynamic Response |
| Link |
Power System Dynamics |
Lecture 28 - Dynamic Equivalents for Large Scale Systems - Part-1 |
| Link |
Power System Dynamics |
Lecture 29 - Dynamic Equivalents for Large Scale Systems - Part-2 |
| Link |
Power System Dynamics |
Lecture 30 - Dynamic Equivalents for Large Scale Systems - Part-3 |
| Link |
Power System Dynamics |
Lecture 31 - Direct Method of Transient Stability Analysis - Part-1 |
| Link |
Power System Dynamics |
Lecture 32 - Direct Method of Transient Stability Analysis - Part-2 |
| Link |
Power System Dynamics |
Lecture 33 - Sub Synchronous Oscillations - Part-1 |
| Link |
Power System Dynamics |
Lecture 34 - Sub Synchronous Oscillations - Part-2 |
| Link |
Power System Dynamics |
Lecture 35 - Voltage Stability - Part-1 |
| Link |
Power System Dynamics |
Lecture 36 - Voltage Stability - Part-2 |
| Link |
Power System Dynamics |
Lecture 37 - Voltage Stability - Part-3 |
| Link |
Power System Dynamics |
Lecture 38 - Voltage Stability - Part-4 |
| Link |
Power System Dynamics |
Lecture 39 - Methods of Improving Stability - Part-1 |
| Link |
Power System Dynamics |
Lecture 40 - Methods of Improving Stability - Part-2 |
| Link |
Analog Electronic Circuits |
Lecture 1 - Review of DC Models of Diodes & BJT's |
| Link |
Analog Electronic Circuits |
Lecture 2 - Review of DC Models of BJT (Continued...) and FET |
| Link |
Analog Electronic Circuits |
Lecture 3 - FET Characteristics and Models |
| Link |
Analog Electronic Circuits |
Lecture 4 - Problem Session-1 on DC Analysis of BJT Circuits |
| Link |
Analog Electronic Circuits |
Lecture 5 - BJT Biasing and Bias Stability |
| Link |
Analog Electronic Circuits |
Lecture 6 - BJT Bias Stability (Continued...) |
| Link |
Analog Electronic Circuits |
Lecture 7 - FET Biasing, Current Sources |
| Link |
Analog Electronic Circuits |
Lecture 8 - Problem Session-2 on FET and BJT Characteristics and Biasing |
| Link |
Analog Electronic Circuits |
Lecture 9 - Current Mirrors; BJT Small Signal Models |
| Link |
Analog Electronic Circuits |
Lecture 10 - Small Signal Amplifiers: Mid Frequency Analysis |
| Link |
Analog Electronic Circuits |
Lecture 11 - Mid Frequency Analysis of the CE and CB Amplifier |
| Link |
Analog Electronic Circuits |
Lecture 12 - Problem Session-3 on Mid- Frequency Analysis of CE Amplifiers |
| Link |
Analog Electronic Circuits |
Lecture 13 - Midband Analysis of CB and CC Amplifiers |
| Link |
Analog Electronic Circuits |
Lecture 14 - Midband Analysis of FET Amplifiers |
| Link |
Analog Electronic Circuits |
Lecture 15 - Problem Session-4 on Midband Analysis of Amplifiers |
| Link |
Analog Electronic Circuits |
Lecture 16 - High Frequency Response of Small Signal Amplifiers |
| Link |
Analog Electronic Circuits |
Lecture 17 - High Frequency Response of Small Signal Amplifiers (Continued...) |
| Link |
Analog Electronic Circuits |
Lecture 18 - Low Frequency Response of Small Signal Amplifiers |
| Link |
Analog Electronic Circuits |
Lecture 19 - Problem Session-5 on Frequency Response of Small Signal Amplifiers |
| Link |
Analog Electronic Circuits |
Lecture 20 - Differential Amplifiers |
| Link |
Analog Electronic Circuits |
Lecture 21 - Differential Amplifiers (Continued...) |
| Link |
Analog Electronic Circuits |
Lecture 22 - Discussion on Minor-1 Problems and Differential Amplifiers (Continued...) |
| Link |
Analog Electronic Circuits |
Lecture 23 - Problem Session-6 on Frequency Response of Small Signal Amplifiers (Continued...) and Differential Amplifiers |
| Link |
Analog Electronic Circuits |
Lecture 24 - Use of Current Mirrors in Differential Amplifiers |
| Link |
Analog Electronic Circuits |
Lecture 25 - FET Differential Amplifiers and Introduction to Power Amplifiers |
| Link |
Analog Electronic Circuits |
Lecture 26 - Class B, Class AB and Class A Power Amplifiers |
| Link |
Analog Electronic Circuits |
Lecture 27 - Class A Power Amplifiers; Efficiency Considerations |
| Link |
Analog Electronic Circuits |
Lecture 28 - Problem Session-7 on Deferential and Power Amplifiers |
| Link |
Analog Electronic Circuits |
Lecture 29 - Introduction to Feedback Amplifiers |
| Link |
Analog Electronic Circuits |
Lecture 30 - Advantages of Negative Feedback Amplifiers |
| Link |
Analog Electronic Circuits |
Lecture 31 - Analysis of Feedback Amplifiers |
| Link |
Analog Electronic Circuits |
Lecture 32 - Analysis of the Series - Series and Other Feedback Configurations |
| Link |
Analog Electronic Circuits |
Lecture 33 - Problem Session-8 on Feedback Amplifiers |
| Link |
Analog Electronic Circuits |
Lecture 34 - Sinusoidal Oscillators : An Example of Positive Feedback |
| Link |
Analog Electronic Circuits |
Lecture 35 - More on Oscillators |
| Link |
Analog Electronic Circuits |
Lecture 36 - Solutions to Minor-2 Exam and Concluding Discussions on Oscillators |
| Link |
Analog Electronic Circuits |
Lecture 37 - Problem Session-9 on Oscillators |
| Link |
Analog Electronic Circuits |
Lecture 38 - Tuned (or Narrowband) Amplifiers |
| Link |
Analog Electronic Circuits |
Lecture 39 - Widebanding Techniques : Introduction & Use of Inductors |
| Link |
Analog Electronic Circuits |
Lecture 40 - Widebanding By Using an Inductance |
| Link |
Analog Electronic Circuits |
Lecture 41 - Problem Session-10 on Tuned Amplifiers |
| Link |
Analog Electronic Circuits |
Lecture 42 - Widebanding by Using Compound Devices |
| Link |
Analog Electronic Circuits |
Lecture 43 - Cascode Configuration as Wideband Amplifier |
| Link |
Analog Electronic Circuits |
Lecture 44 - Widebanding by Local Feedback |
| Link |
Analog Electronic Circuits |
Lecture 45 - Problem Session-11 on Minor-3 Problems & Widebanding by Compound Devices |
| Link |
Analog Electronic Circuits |
Lecture 46 - Widebanding by Local Feedback and Feedback Cascades |
| Link |
Analog Electronic Circuits |
Lecture 47 - Widebanding by Overall Feedback and Dual Loop Feedback |
| Link |
Analog Electronic Circuits |
Lecture 48 - The Differential Pair and the Gilbert Cell as Wideband Amplifiers |
| Link |
Analog Electronic Circuits |
Lecture 49 - Correction to Gilbert Cell Analysis and Operational Amplifier Imperfections |
| Link |
Analog Electronic Circuits |
Lecture 50 - Op-Amp offsets, Compensation and Slew Rate |
| Link |
Analog Electronic Circuits |
Lecture 51 - Op-Amp Compensation, Slew Rate and Some Problems |
| Link |
Digital Communication |
Lecture 1 - Introduction to the Course |
| Link |
Digital Communication |
Lecture 2 - Digital Representation of Analog Signals, Delta Modulation |
| Link |
Digital Communication |
Lecture 3 - Digital Representation of Analog Signals, Pulse Code Modulation |
| Link |
Digital Communication |
Lecture 4 - Digital Representation of Analog Signals |
| Link |
Digital Communication |
Lecture 5 - Quantization Noise in Delta Modulation (Continued...) and Time Division Multiplexing |
| Link |
Digital Communication |
Lecture 6 - Introduction to Line Coding |
| Link |
Digital Communication |
Lecture 7 - Spectral Properties of Line Codes: General Relations |
| Link |
Digital Communication |
Lecture 8 - Spectral Properties of Line Codes: On-off / Polar / Bipolar Signalling |
| Link |
Digital Communication |
Lecture 9 - Spectral Properties of Line Codes: Duobinary Manchester and HDB Codes |
| Link |
Digital Communication |
Lecture 10 - Baseband Pulse Shaping: Nyquist's First Criterion |
| Link |
Digital Communication |
Lecture 11 - Baseband Pulse Shaping; Raised Cosine Family of Pulses |
| Link |
Digital Communication |
Lecture 12 - Partial Response Signalling: Duobinary and Modified Duobinary Pulse Shaping |
| Link |
Digital Communication |
Lecture 13 - Precoding for Duobinary and Modified Duobinary Systems |
| Link |
Digital Communication |
Lecture 14 - Precoding for Modified Duobinary Systems (Continued...) and General Partial Response Signalling |
| Link |
Digital Communication |
Lecture 15 - Binary Baseband Digital Modulation Techniques |
| Link |
Digital Communication |
Lecture 16 - M’ary Baseband Digital Modulation Techniques |
| Link |
Digital Communication |
Lecture 17 - Passband Digital Modulations - I : PSK and QPSK |
| Link |
Digital Communication |
Lecture 18 - Passband Digital Modulations - II : Offset QPSK |
| Link |
Digital Communication |
Lecture 19 - Passband Digital Modulations - III : Minimum Shift Keying (MSK) |
| Link |
Digital Communication |
Lecture 20 - Passband Digital Modulations - IV : MSK (Continued...) : Passband Waveforms for M’ary Signalling |
| Link |
Digital Communication |
Lecture 21 - Passband Modulations for Band Limited Channels |
| Link |
Digital Communication |
Lecture 22 - Baseband and Passband Digital Demodulations : General Issues and Concepts |
| Link |
Digital Communication |
Lecture 23 - Digital Modulation Part - II Matched Filters |
| Link |
Digital Communication |
Lecture 24 - Matched Filters and Coherent Demodulation-I |
| Link |
Digital Communication |
Lecture 25 - Coherent Demodulation for Binary Wave Form |
| Link |
Digital Communication |
Lecture 26 - Demodulators for Binary Waveforms (Continued...) : Coherent and Noncoherent Receivers for Orthogonal Signalling (OOK and FSK) |
| Link |
Digital Communication |
Lecture 27 - Performance Analysis of Binary Digital Modulations: Signal and Noise Statistics in Coherent and Noncoherent Receivers |
| Link |
Digital Communication |
Lecture 28 - Error Rates for Binary Signalling : Coherent Receivers |
| Link |
Digital Communication |
Lecture 29 - Performance of Non Coherent FSK and Differential Phase Shift Keying |
| Link |
Digital Communication |
Lecture 30 - Demodulation of DPSK and M\'ary Signals |
| Link |
Digital Communication |
Lecture 31 - Performance of M\'ary Digital Modulations |
| Link |
Digital Communication |
Lecture 32 - Performance of M\'ary Digital Modulations (Continued...) |
| Link |
Digital Communication |
Lecture 33 - Introduction to Information Theory, Part-1 |
| Link |
Digital Communication |
Lecture 34 - Source Coding |
| Link |
Digital Communication |
Lecture 35 - Error Free Communication Over a Noisy Channel |
| Link |
Digital Communication |
Lecture 36 - The Concept of Channel Capacity |
| Link |
Digital Communication |
Lecture 37 - Error Correcting Codes |
| Link |
Digital Communication |
Lecture 38 - Error Correcting Codes (Continued...) |
| Link |
Introduction To Electronic Circuits |
Lecture 1 - Introduction to the Course and Basic Electrical Quantity |
| Link |
Introduction To Electronic Circuits |
Lecture 2 - R.L.C. Components, Energy Considerations, Sources and Circuit Laws |
| Link |
Introduction To Electronic Circuits |
Lecture 3 - KCL, KVL and Network Analysis |
| Link |
Introduction To Electronic Circuits |
Lecture 4 - Networks Theorems ( Thevenin's Norton's ) |
| Link |
Introduction To Electronic Circuits |
Lecture 5 - Source Transformation; Super Position Theorem and Non-Linear One-Ports |
| Link |
Introduction To Electronic Circuits |
Lecture 6 - Signal Wave Forms |
| Link |
Introduction To Electronic Circuits |
Lecture 7 - Periodic Wave Forms and Elements of Amplifiers |
| Link |
Introduction To Electronic Circuits |
Lecture 8 - Operational Amplifiers and Diodes |
| Link |
Introduction To Electronic Circuits |
Lecture 9 - Rectifiers and Power Supplies |
| Link |
Introduction To Electronic Circuits |
Lecture 10 - Wave Shaping Circuits |
| Link |
Introduction To Electronic Circuits |
Lecture 11 - More on Wave Shaping Circuits and Introduction to Natural Response of Circuits |
| Link |
Introduction To Electronic Circuits |
Lecture 12 - Natural Response (Continued...) |
| Link |
Introduction To Electronic Circuits |
Lecture 13 - Natural Response of 2nd Order Circuit |
| Link |
Introduction To Electronic Circuits |
Lecture 14 - Natural Response of 2nd Order Circuit (Continued...) |
| Link |
Introduction To Electronic Circuits |
Lecture 15 - Impedance Functions, Poles, Zeros and their Applications |
| Link |
Introduction To Electronic Circuits |
Lecture 16 - Natural Response and Poles and Zeros and Introduction to Forced Response |
| Link |
Introduction To Electronic Circuits |
Lecture 17 - Phasors and their Applications in AC Ckts, analysis |
| Link |
Introduction To Electronic Circuits |
Lecture 18 - More About Phasors and Introduction to Complete Response |
| Link |
Introduction To Electronic Circuits |
Lecture 19 - Complete Response of Electrical Circuits |
| Link |
Introduction To Electronic Circuits |
Lecture 20 - AC Circuit Analysis |
| Link |
Introduction To Electronic Circuits |
Lecture 21 - Filter Circuits and Resonance |
| Link |
Introduction To Electronic Circuits |
Lecture 22 - Resonance (Continued...) |
| Link |
Introduction To Electronic Circuits |
Lecture 23 - General Network Analysis |
| Link |
Introduction To Electronic Circuits |
Lecture 24 - Two-Port Networks |
| Link |
Introduction To Electronic Circuits |
Lecture 25 - Semiconductor Physics |
| Link |
Introduction To Electronic Circuits |
Lecture 26 - Semiconductor Physics (Continued...) |
| Link |
Introduction To Electronic Circuits |
Lecture 27 - More About Diodes Including Zener Diodes |
| Link |
Introduction To Electronic Circuits |
Lecture 28 - Bipolar Junction Transistors |
| Link |
Introduction To Electronic Circuits |
Lecture 29 - Transistors Characteristics and Biasing |
| Link |
Introduction To Electronic Circuits |
Lecture 30 - BJT Biasing and Introduction to Power Amplifiers |
| Link |
Introduction To Electronic Circuits |
Lecture 31 - BJT Power Amplifiers |
| Link |
Introduction To Electronic Circuits |
Lecture 32 - Power Amplifier |
| Link |
Introduction To Electronic Circuits |
Lecture 33 - Power Amplifiers (Continued...) and an Introduction to Small Signal Modelling of BJT |
| Link |
Introduction To Electronic Circuits |
Lecture 34 - Small Signal Model and Small Signal Amplifiers |
| Link |
Introduction To Electronic Circuits |
Lecture 35 - Small Signal Amplifiers (Continued...) |
| Link |
Introduction To Electronic Circuits |
Lecture 36 - Small Signal Amplifier (Continued...) |
| Link |
Introduction To Electronic Circuits |
Lecture 37 - Small Signal Amplifiers (Continued...) |
| Link |
Introduction To Electronic Circuits |
Lecture 38 - Negative Feedback |
| Link |
Introduction To Electronic Circuits |
Lecture 39 - Digital Circuits |
| Link |
Introduction To Electronic Circuits |
Lecture 40 - Digital Circuits (Continued...) |
| Link |
NOC:Analog Electronic Circuit |
Lecture 1 - Introduction to Analog Circuits Introduction to the Diode |
| Link |
NOC:Analog Electronic Circuit |
Lecture 2 - Diodes, Introduction to The Transistor |
| Link |
NOC:Analog Electronic Circuit |
Lecture 3 - MOS Device, Characteristics |
| Link |
NOC:Analog Electronic Circuit |
Lecture 4 - DC operating point |
| Link |
NOC:Analog Electronic Circuit |
Lecture 5 - DC operating point, amplifier design |
| Link |
NOC:Analog Electronic Circuit |
Lecture 6 - Common source amplifier, small signal analysis |
| Link |
NOC:Analog Electronic Circuit |
Lecture 7 - Common gate, common drain |
| Link |
NOC:Analog Electronic Circuit |
Lecture 8 - Common gate circuit |
| Link |
NOC:Analog Electronic Circuit |
Lecture 9 - Source degenerated amplifier |
| Link |
NOC:Analog Electronic Circuit |
Lecture 10 - Swing limits |
| Link |
NOC:Analog Electronic Circuit |
Lecture 11 - Swing limits (Continued...), multi transistor amplifiers |
| Link |
NOC:Analog Electronic Circuit |
Lecture 12 - Multi-transistor amplifiers |
| Link |
NOC:Analog Electronic Circuit |
Lecture 13 - Introduction to current sources |
| Link |
NOC:Analog Electronic Circuit |
Lecture 14 - Current sources/mirrors (Continued...) |
| Link |
NOC:Analog Electronic Circuit |
Lecture 15 - Current sources, biasing |
| Link |
NOC:Analog Electronic Circuit |
Lecture 16 - Differential circuits |
| Link |
NOC:Analog Electronic Circuit |
Lecture 17 - Differential amplifiers-I |
| Link |
NOC:Analog Electronic Circuit |
Lecture 18 - Differential amplifiers-II |
| Link |
NOC:Analog Electronic Circuit |
Lecture 19 - Differential amplifiers-III |
| Link |
NOC:Analog Electronic Circuit |
Lecture 20 - Self biased active load diff. amp |
| Link |
NOC:Analog Electronic Circuit |
Lecture 21 - Diff. Cascode amplifier, two stage amplifiers |
| Link |
NOC:Analog Electronic Circuit |
Lecture 22 - Two stage diff. amps, op-amps |
| Link |
NOC:Analog Electronic Circuit |
Lecture 23 - Op-amps, OTAs |
| Link |
NOC:Analog Electronic Circuit |
Lecture 24 - Circuits with op-amps |
| Link |
NOC:Analog Electronic Circuit |
Lecture 25 - Capacitance in MOS devices |
| Link |
NOC:Analog Electronic Circuit |
Lecture 26 - Common source, drain, gate-revisited |
| Link |
NOC:Analog Electronic Circuit |
Lecture 27 - Common gate, common drain with capacitances |
| Link |
NOC:Analog Electronic Circuit |
Lecture 28 - Cascode, cascade-revisit with capacitance |
| Link |
NOC:Analog Electronic Circuit |
Lecture 29 - Cascade amplifier (with capacitance) |
| Link |
NOC:Analog Electronic Circuit |
Lecture 30 - Diversion: 2-pole systems phase margin |
| Link |
NOC:Analog Electronic Circuit |
Lecture 31 - Diversion Continued: Two Pole Systems |
| Link |
NOC:Analog Electronic Circuit |
Lecture 32 - Compensation |
| Link |
NOC:Analog Electronic Circuit |
Lecture 33 - Op-amp Design with Compensation |
| Link |
NOC:Analog Electronic Circuit |
Lecture 34 - Unity Gain Bandwidth |
| Link |
NOC:Analog Electronic Circuit |
Lecture 35 - Power Amplification |
| Link |
NOC:Analog Electronic Circuit |
Lecture 36 - Power Amplifiers-2 |
| Link |
NOC:Analog Electronic Circuit |
Lecture 37 - Power Amplifiers- Class A,B,AB,C ClassD |
| Link |
NOC:Analog Electronic Circuit |
Lecture 38 - Class D Amplifiers, Push-pull Amplifiers |
| Link |
NOC:Analog Electronic Circuit |
Lecture 39 - Introduction to Voltage Regulators |
| Link |
NOC:Analog Electronic Circuit |
Lecture 40 - Voltage Regulators- line, load; Conclusion Regulation |
| Link |
NOC:Nonlinear and Adaptive Control |
Lecture 1 - Introduction |
| Link |
NOC:Nonlinear and Adaptive Control |
Lecture 2 - Preliminaries |
| Link |
NOC:Nonlinear and Adaptive Control |
Lecture 3 - Model Reference Adaptive Control - Part 1 |
| Link |
NOC:Nonlinear and Adaptive Control |
Lecture 4 - Model Reference Adaptive Control - Part 2 |
| Link |
NOC:Nonlinear and Adaptive Control |
Lecture 5 - Model Reference Adaptive Control - Part 3 |
| Link |
NOC:Nonlinear and Adaptive Control |
Lecture 6 - Adaptive Command Tracking |
| Link |
NOC:Nonlinear and Adaptive Control |
Lecture 7 - Robust Model Reference Adaptive Control - Part 1 |
| Link |
NOC:Nonlinear and Adaptive Control |
Lecture 8 - Robust Model Reference Adaptive Control - Part 2 |
| Link |
NOC:Nonlinear and Adaptive Control |
Lecture 9 - Robust Model Reference Adaptive Control - Part 3 |
| Link |
NOC:Nonlinear and Adaptive Control |
Lecture 10 - Robust Model Reference Adaptive Control - Part 4 |
| Link |
NOC:Information Theory, Coding and Cryptography |
Lecture 1 - Introduction to Information Theory |
| Link |
NOC:Information Theory, Coding and Cryptography |
Lecture 2 - Entropy, Mutual Information, Conditional and Joint Entropy |
| Link |
NOC:Information Theory, Coding and Cryptography |
Lecture 3 - Measures for Continuous, Random Variable, Relative Entropy |
| Link |
NOC:Information Theory, Coding and Cryptography |
Lecture 4 - Variable Length Codes, Prefix Codes |
| Link |
NOC:Information Theory, Coding and Cryptography |
Lecture 5 - Source Coding Theorem |
| Link |
NOC:Information Theory, Coding and Cryptography |
Lecture 6 - various source coding Techniques: Huffman, Arithmetic, Lempel Ziv, Run Length |
| Link |
NOC:Information Theory, Coding and Cryptography |
Lecture 7 - Optimum Quantizer, Practical Application of Source Coding: JPEG Compression |
| Link |
NOC:Information Theory, Coding and Cryptography |
Lecture 8 - Introduction to Super Information |
| Link |
NOC:Information Theory, Coding and Cryptography |
Lecture 9 - Channel Models and Channel Capacity |
| Link |
NOC:Information Theory, Coding and Cryptography |
Lecture 10 - Noisy Channel Coding Theorem |
| Link |
NOC:Information Theory, Coding and Cryptography |
Lecture 11 - Gaussian Channel and Information Capacity Theorem |
| Link |
NOC:Information Theory, Coding and Cryptography |
Lecture 12 - Capacity of MIMO Channels |
| Link |
NOC:Information Theory, Coding and Cryptography |
Lecture 13 - Introduction to Error Control Coding |
| Link |
NOC:Information Theory, Coding and Cryptography |
Lecture 14 - Introduction to Galois Field |
| Link |
NOC:Information Theory, Coding and Cryptography |
Lecture 15 - Equivalent Codes, Generator Matrix and Parity Check Matrix |
| Link |
NOC:Information Theory, Coding and Cryptography |
Lecture 16 - Systematic Codes, Error Detections and Correction |
| Link |
NOC:Information Theory, Coding and Cryptography |
Lecture 17 - Erasure and Errors, Standard Array and Syndrome Decoding |
| Link |
NOC:Information Theory, Coding and Cryptography |
Lecture 18 - Probability of Error, Coding Gain and Hamming Bound |
| Link |
NOC:Information Theory, Coding and Cryptography |
Lecture 19 - Hamming Codes, LDPC Codes and MDS Codes |
| Link |
NOC:Information Theory, Coding and Cryptography |
Lecture 20 - Introduction to Cyclic Codes |
| Link |
NOC:Information Theory, Coding and Cryptography |
Lecture 21 - Generator Polynomial, Syndrome Polynomial and Matrix Representation |
| Link |
NOC:Information Theory, Coding and Cryptography |
Lecture 22 - Fire Code, Golay Code, CRC Codes and Circuit Implementation of Cyclic Codes |
| Link |
NOC:Information Theory, Coding and Cryptography |
Lecture 23 - Introduction to BCH Codes: Generator Polynomials |
| Link |
NOC:Information Theory, Coding and Cryptography |
Lecture 24 - Multiple Error Correcting BCH Codes, Decoding of BCH Codes |
| Link |
NOC:Information Theory, Coding and Cryptography |
Lecture 25 - Introduction to Reed Solomon (RS) Codes |
| Link |
NOC:Information Theory, Coding and Cryptography |
Lecture 26 - Introduction to Convolutional Codes |
| Link |
NOC:Information Theory, Coding and Cryptography |
Lecture 27 - Trellis Codes: Generator Polynomial Matrix and Encoding using Trellis |
| Link |
NOC:Information Theory, Coding and Cryptography |
Lecture 28 - Vitrebi Decoding and Known good Convolutional Codes |
| Link |
NOC:Information Theory, Coding and Cryptography |
Lecture 29 - Introduction to Turbo Codes |
| Link |
NOC:Information Theory, Coding and Cryptography |
Lecture 30 - Introduction to Trellis Coded Modulation (TCM) |
| Link |
NOC:Information Theory, Coding and Cryptography |
Lecture 31 - Ungerboek's Design Rules and Performance Evaluation of TCM Schemes |
| Link |
NOC:Information Theory, Coding and Cryptography |
Lecture 32 - TCM for Fading Channel and Space Time Trellis Codes (STTC) |
| Link |
NOC:Information Theory, Coding and Cryptography |
Lecture 33 - Introduction to Space Time Block Codes (STBC) |
| Link |
NOC:Information Theory, Coding and Cryptography |
Lecture 34 - Space Time Codes |
| Link |
NOC:Information Theory, Coding and Cryptography |
Lecture 35 - Space Time Codes (Continued...) |
| Link |
NOC:Information Theory, Coding and Cryptography |
Lecture 36 - Introduction to Cryptography: Symmetric key and Asymmetric Key Cryptography |
| Link |
NOC:Information Theory, Coding and Cryptography |
Lecture 37 - Some Well-Known Algorithms: DES, IDEA, PGP, DH Protocol |
| Link |
NOC:Information Theory, Coding and Cryptography |
Lecture 38 - Introduction to Physical Layer Security: Notion of Secrecy Capacity |
| Link |
NOC:Information Theory, Coding and Cryptography |
Lecture 39 - Secrecy Outage Capacity, Secrecy Outage Probability, Cooperative Jamming |
| Link |
Engineering Electromagnetics |
Lecture 1 - Introduction |
| Link |
Engineering Electromagnetics |
Lecture 2 - Transmission Lines : Wave Propagation |
| Link |
Engineering Electromagnetics |
Lecture 3 - Transmission Lines : Reflection,Transmission; Travelling Waves |
| Link |
Engineering Electromagnetics |
Lecture 4 - Transmission Lines : Travelling Waves (Continued...); Sinusoidal Signals; Impedence Transformation |
| Link |
Engineering Electromagnetics |
Lecture 5 - Transmission Lines : Standing Wave Ratio:Measurement of Impedence |
| Link |
Engineering Electromagnetics |
Lecture 6 - Transmission Lines : General Transmission Lines Equations,Low loss,Transmission Lines,Transmission Lines as Circuit Elements |
| Link |
Engineering Electromagnetics |
Lecture 7 - Transmission Lines : Section as Circuit Elements |
| Link |
Engineering Electromagnetics |
Lecture 8 - Transmission Lines : Velocities of Propagation, Transmission Lines Charts |
| Link |
Engineering Electromagnetics |
Lecture 9 - Transmission Lines : Smith Chart |
| Link |
Engineering Electromagnetics |
Lecture 10 - Transmission Lines : Impedance Matching using Stub-Lines |
| Link |
Engineering Electromagnetics |
Lecture 11 - Transmission Lines : Transmission Lines Parameters; (primary Constants) |
| Link |
Engineering Electromagnetics |
Lecture 12 - Wave Propagation |
| Link |
Engineering Electromagnetics |
Lecture 13 - Wave Propagation (Continued...) |
| Link |
Engineering Electromagnetics |
Lecture 14 - Wave Propagation : Polarisation,Poynting Vector |
| Link |
Engineering Electromagnetics |
Lecture 15 - Wave Propagation : Power Flow,Complex Poynting vector,wave equation for a conducting Medium |
| Link |
Engineering Electromagnetics |
Lecture 16 - Wave Propagation : Conducting Medium;Conductors and Dielectrics Depth of Penetration;Surface Impedance |
| Link |
Engineering Electromagnetics |
Lecture 17 - Wave Propagation : Surface Impedance; Power Loss in a Conductor Reflection at a Perfect conductor (Normal Inc.) |
| Link |
Engineering Electromagnetics |
Lecture 18 - Reflection and Refraction of waves : Reflection at the Surface of a Conducting Medium,Reflection at a Perfect Conductor (Oblique Inc.) |
| Link |
Engineering Electromagnetics |
Lecture 19 - Reflection and Refraction of waves (Continued...) |
| Link |
Engineering Electromagnetics |
Lecture 20 - Reflection and Refraction of waves (Continued...) - 1 |
| Link |
Engineering Electromagnetics |
Lecture 21 - Reflection and Refraction of waves (Continued...); The Plane slab |
| Link |
Engineering Electromagnetics |
Lecture 22 - Reflection and Refraction of waves (Continued...); Transmission Line Analogy for Planes Waves |
| Link |
Engineering Electromagnetics |
Lecture 23 - Wave Guides |
| Link |
Engineering Electromagnetics |
Lecture 24 - Wave Guides (Continued...) Parallel plane Guide,Transverse Electric Waves,Field Distribution,Superposition of Plane Waves |
| Link |
Engineering Electromagnetics |
Lecture 25 - Wave Guides (Continued...) |
| Link |
Engineering Electromagnetics |
Lecture 26 - Wave Guides (Continued...) Parallel plane Guide,Characteristics of TE and Tm Waves,TEM Waves,Wave Impedances |
| Link |
Engineering Electromagnetics |
Lecture 27 - Wave Guides (Continued...) - 1 |
| Link |
Engineering Electromagnetics |
Lecture 28 - Wave Guides (Continued...) - 2 |
| Link |
Engineering Electromagnetics |
Lecture 29 - Wave Guides (Continued...) Rectangular Wave Guides |
| Link |
Engineering Electromagnetics |
Lecture 30 - Wave Guides (Continued...) |
| Link |
Engineering Electromagnetics |
Lecture 31 - Wave Guides (Continued...) Rectangular Wave Guides - 1 |
| Link |
Engineering Electromagnetics |
Lecture 32 - Resonators General Properties |
| Link |
Engineering Electromagnetics |
Lecture 33 - Resonators (Continued...) Transmission Line Resonators |
| Link |
Engineering Electromagnetics |
Lecture 34 - Resonators (Continued...) Wave Guide Resonators |
| Link |
Engineering Electromagnetics |
Lecture 35 - Radiation |
| Link |
Engineering Electromagnetics |
Lecture 36 - Radiation (Continued...) |
| Link |
Engineering Electromagnetics |
Lecture 37 - Radiation (Continued...) - 1 |
| Link |
Engineering Electromagnetics |
Lecture 38 - Radiation (Continued...) - 2 |
| Link |
Engineering Electromagnetics |
Lecture 39 - Radiation (Continued...) Monopole Antennas half Wave Dipole Antenna |
| Link |
Engineering Electromagnetics |
Lecture 40 - Radiation (Continued...) |
| Link |
Engineering Electromagnetics |
Lecture 41 - Radiation (Continued...) 2 - Element Arrays,Yagi-Uda Array |
| Link |
NOC:Principles of Digital Communications (2018) |
Lecture 1 - Introduction |
| Link |
NOC:Principles of Digital Communications (2018) |
Lecture 2 - Signal Spaces : Waveforms and Vector Spaces |
| Link |
NOC:Principles of Digital Communications (2018) |
Lecture 3 - Inner Product and Orthogonal Expansion |
| Link |
NOC:Principles of Digital Communications (2018) |
Lecture 4 - Signal Spaces : Gram Schmidt Orthogonalization and Receiver Structures |
| Link |
NOC:Principles of Digital Communications (2018) |
Lecture 5 - Signal Spaces : Fourier Series and Related expansions |
| Link |
NOC:Principles of Digital Communications (2018) |
Lecture 6 - Signal Spaces : Bandwidth and Degree of Freedom |
| Link |
NOC:Principles of Digital Communications (2018) |
Lecture 7 - Random Variables and Random Processes : Discrete Random Variable |
| Link |
NOC:Principles of Digital Communications (2018) |
Lecture 8 - Random Variables and Random Processes : Continuous Random Variable |
| Link |
NOC:Principles of Digital Communications (2018) |
Lecture 9 - Random Variables and Random Processes : Multiple Random Variable |
| Link |
NOC:Principles of Digital Communications (2018) |
Lecture 10 - Random Variables and Random Processes : Random Vectors |
| Link |
NOC:Principles of Digital Communications (2018) |
Lecture 11 - Random Variables and Random Processes : Introduction to Random Process |
| Link |
NOC:Principles of Digital Communications (2018) |
Lecture 12 - Random Variables and Random Processes : Properties of Random Process |
| Link |
NOC:Principles of Digital Communications (2018) |
Lecture 13 - Random Variables and Random Processes : Gaussian Random Process - Part 1 |
| Link |
NOC:Principles of Digital Communications (2018) |
Lecture 14 - Random Variables and Random Processes : Gaussian Random Process - Part 2 |
| Link |
NOC:Principles of Digital Communications (2018) |
Lecture 15 - Random Variables and Random Processes : Types of Random Process |
| Link |
NOC:Principles of Digital Communications (2018) |
Lecture 16 - Random Variables and Random Processes : Random Process through an LTI system |
| Link |
NOC:Principles of Digital Communications (2018) |
Lecture 17 - Random Variables and Random Processes : Spectral description of Random Process |
| Link |
NOC:Principles of Digital Communications (2018) |
Lecture 18 - Waveform Coding |
| Link |
NOC:Principles of Digital Communications (2018) |
Lecture 19 - Modulation : Complex Baseband Representation of Passband Signals - Part 1 |
| Link |
NOC:Principles of Digital Communications (2018) |
Lecture 20 - Modulation : Complex Baseband Representation of Passband Signals - Part 2 |
| Link |
NOC:Principles of Digital Communications (2018) |
Lecture 21 - Modulation : Complex Baseband Representation of Passband Signals - Part 3 |
| Link |
NOC:Principles of Digital Communications (2018) |
Lecture 22 - Modulation : Spectral Description of Sources - Part 1 |
| Link |
NOC:Principles of Digital Communications (2018) |
Lecture 23 - Modulation : Spectral Description of Sources - Part 2 |
| Link |
NOC:Principles of Digital Communications (2018) |
Lecture 24 - Modulation : Spectral Description of Sources using Markov Chains and Cyclostationary Random Processes |
| Link |
NOC:Principles of Digital Communications (2018) |
Lecture 25 - Modulation : Nyquist Pulses |
| Link |
NOC:Principles of Digital Communications (2018) |
Lecture 26 - Modulation : Pulse Amplitude Modulation and Quadrature Amplitude Modulation - Part 1 |
| Link |
NOC:Principles of Digital Communications (2018) |
Lecture 27 - Modulation : Pulse Amplitude Modulation and Quadrature Amplitude Modulation - Part 2 |
| Link |
NOC:Principles of Digital Communications (2018) |
Lecture 28 - Modulation : Orthogonal Modulation Schemes |
| Link |
NOC:Principles of Digital Communications (2018) |
Lecture 29 - Modulation : Differential Modulation Schemes |
| Link |
NOC:Principles of Digital Communications (2018) |
Lecture 30 - Detection : Maximum Aposteriori Probability (MAP) Detector and Maximum Likelihood (ML) Detector |
| Link |
NOC:Principles of Digital Communications (2018) |
Lecture 31 - Detection : Vector Detection |
| Link |
NOC:Principles of Digital Communications (2018) |
Lecture 32 - Detection : Theorem of Irrelevance and Waveform Detection |
| Link |
NOC:Principles of Digital Communications (2018) |
Lecture 33 - Detection : Sequence Detection |
| Link |
NOC:Principles of Digital Communications (2018) |
Lecture 34 - Detection : Performance of Binary Signalling Schemes |
| Link |
NOC:Principles of Digital Communications (2018) |
Lecture 35 - Detection : Performance of M-ary Signaling Schemes |
| Link |
NOC:Principles of Digital Communications (2018) |
Lecture 36 - Detection : Performance of Orthogonal Modulation Schemes and Bit-Level Demodulation |
| Link |
NOC:Principles of Digital Communications (2018) |
Lecture 37 - Detection : Performance of Non-Coherent Systems Systems |
| Link |
NOC:Principles of Digital Communications (2018) |
Lecture 38 - Detection : Fading Channel |
| Link |
NOC:Electric Vehicles - Part 1 |
Lecture 1 - Intro EV Historical_Background |
| Link |
NOC:Electric Vehicles - Part 1 |
Lecture 2 - Intro EV Benefits of Using Evs |
| Link |
NOC:Electric Vehicles - Part 1 |
Lecture 3 - Intro EV Overview of types of Evs and its Challenges |
| Link |
NOC:Electric Vehicles - Part 1 |
Lecture 4 - Intro EV Motor Drive Technologies |
| Link |
NOC:Electric Vehicles - Part 1 |
Lecture 5 - Intro EV Energy Source Technologies |
| Link |
NOC:Electric Vehicles - Part 1 |
Lecture 6 - Intro EV Battery Charging Technologies |
| Link |
NOC:Electric Vehicles - Part 1 |
Lecture 7 - Intro EV Vehicle to Grid |
| Link |
NOC:Electric Vehicles - Part 1 |
Lecture 8 - Intro EV Subsystems and Configurations |
| Link |
NOC:Electric Vehicles - Part 1 |
Lecture 9 - Intro HEV Subsystems and Configurations |
| Link |
NOC:Electric Vehicles - Part 1 |
Lecture 10 - Intro HEV Subsystems and Modes of Operation |
| Link |
NOC:Electric Vehicles - Part 1 |
Lecture 11 - Vehicle_Dynamics_intro_and_tractive_effort |
| Link |
NOC:Electric Vehicles - Part 1 |
Lecture 12 - Vehicle_Dynamics_and_dynamic_equation |
| Link |
NOC:Electric Vehicles - Part 1 |
Lecture 13 - Vehicle Dynamics simulation dynamic equation constant Fte |
| Link |
NOC:Electric Vehicles - Part 1 |
Lecture 14 - Vehicle Dynamics dynamic equation variable Fte |
| Link |
NOC:Electric Vehicles - Part 1 |
Lecture 15 - Vehicle Dynamics simulation dynamic equation variable Fte |
| Link |
NOC:Electric Vehicles - Part 1 |
Lecture 16 - Vehicle Dynamics Modelling and simulation in Simulink |
| Link |
NOC:Electric Vehicles - Part 1 |
Lecture 17 - Summary Electric Vehicles Part 1 Course |
| Link |
NOC:Power Electronics |
Lecture 1 - Introduction to Power Electronics |
| Link |
NOC:Power Electronics |
Lecture 2 - Power Devices: Diodes and SCR |
| Link |
NOC:Power Electronics |
Lecture 3 - Power Devices: SCR, Triac, GTO and BJT |
| Link |
NOC:Power Electronics |
Lecture 4 - Power Devices: BJT, MOSFET and IGBT |
| Link |
NOC:Power Electronics |
Lecture 5 - Single-phase Uncontrolled Rectifiers |
| Link |
NOC:Power Electronics |
Lecture 6 - Single-phase Controlled Rectifiers - I |
| Link |
NOC:Power Electronics |
Lecture 7 - Single-phase Controlled Rectifiers - II |
| Link |
NOC:Power Electronics |
Lecture 8 - Three Phase Rectifiers - I |
| Link |
NOC:Power Electronics |
Lecture 9 - Numericals on devices and Single-phase Rectifiers |
| Link |
NOC:Power Electronics |
Lecture 10 - Three Phase Rectifiers - II |
| Link |
NOC:Power Electronics |
Lecture 11 - Dual Converter and Communication Overlap |
| Link |
NOC:Power Electronics |
Lecture 12 - Communication Overlap - II and AC-AC Converter-Introduction |
| Link |
NOC:Power Electronics |
Lecture 13 - Single-Phase and Three-Phase AC Voltage Controllers |
| Link |
NOC:Power Electronics |
Lecture 14 - Three-Phase AC Voltage Controllers and Cycloconverters |
| Link |
NOC:Power Electronics |
Lecture 15 - Non-Isolated DC-DC Converters - I |
| Link |
NOC:Power Electronics |
Lecture 16 - Non-Isolated DC-DC Converters - II |
| Link |
NOC:Power Electronics |
Lecture 17 - Isolated DC-DC Converters - I |
| Link |
NOC:Power Electronics |
Lecture 18 - Isolated DC-DC Converters - II and Cuk Converters |
| Link |
NOC:Power Electronics |
Lecture 19 - Voltage Source Inverters |
| Link |
NOC:Power Electronics |
Lecture 20 - VSI PWM Techniques - I |
| Link |
NOC:Power Electronics |
Lecture 21 - VSI PWM Techniques - II |
| Link |
NOC:Power Electronics |
Lecture 22 - SPWM and SVM Technique |
| Link |
NOC:Power Electronics |
Lecture 23 - Current Source Inverter |
| Link |
NOC:Power Electronics |
Lecture 24 - Power Electronics Applications |
| Link |
NOC:Electrical Machines |
Lecture 1 - Introduction to Electrical Machines - I |
| Link |
NOC:Electrical Machines |
Lecture 2 - Single-phase and Three-phase AC Circuits, Magnetic circuits |
| Link |
NOC:Electrical Machines |
Lecture 3 - Magnetic Circuit - II |
| Link |
NOC:Electrical Machines |
Lecture 4 - Magnetic Circuit - III |
| Link |
NOC:Electrical Machines |
Lecture 5 - Transformers - Introduction |
| Link |
NOC:Electrical Machines |
Lecture 6 - Transformers - Amp-Turn Balance, Ideal and practical transformers |
| Link |
NOC:Electrical Machines |
Lecture 7 - Transformer Equivalent circuit and Reducing leakage |
| Link |
NOC:Electrical Machines |
Lecture 8 - Transformer equivalent circuit parameter determination |
| Link |
NOC:Electrical Machines |
Lecture 9 - Transformers - Voltage regulation and efficiency |
| Link |
NOC:Electrical Machines |
Lecture 10 - Auto-transformers |
| Link |
NOC:Electrical Machines |
Lecture 11 - PU notation and Intoduction to Instrument transformers |
| Link |
NOC:Electrical Machines |
Lecture 12 - Instrument Transformers and All Day Efficiency |
| Link |
NOC:Electrical Machines |
Lecture 13 - Three Phase Transformers - I |
| Link |
NOC:Electrical Machines |
Lecture 14 - Three Phase Transformers - II |
| Link |
NOC:Electrical Machines |
Lecture 15 - Electromechanical Energy Conversion - I |
| Link |
NOC:Electrical Machines |
Lecture 16 - Electromechanical Energy Conversion - II |
| Link |
NOC:Electrical Machines |
Lecture 17 - Electromechanical Energy Conversion - III |
| Link |
NOC:Electrical Machines |
Lecture 18 - DC Machines-Introduction, Constructional Features |
| Link |
NOC:Electrical Machines |
Lecture 19 - DC Machines - EMF and Torque Equations and Generator Operation |
| Link |
NOC:Electrical Machines |
Lecture 20 - DC Machines - OCC and Load Charactristics Classification |
| Link |
NOC:Electrical Machines |
Lecture 21 - DC Machines - Armature Reaction |
| Link |
NOC:Electrical Machines |
Lecture 22 - DC Machines - Voltage Build-up and Load Characteristics |
| Link |
NOC:Electrical Machines |
Lecture 23 - DC Generator Characteristics and Introduction to DC Motors |
| Link |
NOC:Electrical Machines |
Lecture 24 - DC Motors: Basics and Speed-Torque Relationship |
| Link |
NOC:Electrical Machines |
Lecture 25 - DC Motor: Speed Control (Shunt and Separately Exicited Motor) |
| Link |
NOC:Electrical Machines |
Lecture 26 - DC Motor: Speed Control (Series and Compound Motor) |
| Link |
NOC:Electrical Machines |
Lecture 27 - DC Machine: Starting and Braking |
| Link |
NOC:Electrical Machines |
Lecture 28 - DC Machine: Comutation |
| Link |
NOC:Electrical Machines |
Lecture 29 - 3 Phase Induction Machine: Constructional Features and Principle of Operation |
| Link |
NOC:Electrical Machines |
Lecture 30 - 3 Phase Induction Machine: Equivalent Circuit |
| Link |
NOC:Electrical Machines |
Lecture 31 - 3 Phase Induction Machine: Speed Torque Characteristics |
| Link |
NOC:Electrical Machines |
Lecture 32 - Testing of Induction Motor: OC and SC Test |
| Link |
NOC:Electrical Machines |
Lecture 33 - 3 Phase Induction Machine: Starting Methods |
| Link |
NOC:Electrical Machines |
Lecture 34 - Synchronous Machines: Introduction |
| Link |
NOC:Electrical Machines |
Lecture 35 - Synchronous Machines: Constructional Features |
| Link |
NOC:Electrical Machines |
Lecture 36 - Numerical Session |
| Link |
NOC:Electrical Machines |
Lecture 37 - Synchronization of Alternators |
| Link |
NOC:Electrical Machines |
Lecture 38 - Synchronous Machines: Equivalent Circuit and Phasor Diagram |
| Link |
NOC:Electrical Machines |
Lecture 39 - Synchronous Machines: OC and SC Test |
| Link |
NOC:Electrical Machines |
Lecture 40 - Synchronous Machines: Power Angle Relationship, V and Inverted V Curves |
| Link |
NOC:Electrical Machines |
Lecture 41 - Single Phase Induction Motors |
| Link |
Special Electromechanical Systems |
Lecture 1 - Special Electromechanical Systems (Introduction) |
| Link |
Special Electromechanical Systems |
Lecture 2 - Classification of Machines |
| Link |
Special Electromechanical Systems |
Lecture 3 - Single and Two-Phase Motors |
| Link |
Special Electromechanical Systems |
Lecture 4 - Single-Phase Induction Motors-Analysis |
| Link |
Special Electromechanical Systems |
Lecture 5 - Starting of Single-Phase Induction Motors |
| Link |
Special Electromechanical Systems |
Lecture 6 - Single-Phase Induction Motors Analysis |
| Link |
Special Electromechanical Systems |
Lecture 7 - Induction Motors Analysis by Symmetrical Components |
| Link |
Special Electromechanical Systems |
Lecture 8 - Modelling of 1-Phase Induction Motor (One and Two Windings) |
| Link |
Special Electromechanical Systems |
Lecture 9 - Asymmetrical Induction Motor Generalized Rotating Field Theory |
| Link |
Special Electromechanical Systems |
Lecture 10 - Generalized Rotating Field Theory (Continued...) |
| Link |
Special Electromechanical Systems |
Lecture 11 - Generalized Rotating Field Theory (Continued...) |
| Link |
Special Electromechanical Systems |
Lecture 12 - Generalized Rotating Field Theory (Continued...) |
| Link |
Special Electromechanical Systems |
Lecture 13 - Analysis of Asymmetrical Machine by Generalized Rotating Field Theory |
| Link |
Special Electromechanical Systems |
Lecture 14 - Analysis of Asymmetrical Machine |
| Link |
Special Electromechanical Systems |
Lecture 15 - Analysis of Asymmetrical Induction Machine |
| Link |
Special Electromechanical Systems |
Lecture 16 - Generalised Rotating-Field Theory of Wound Rotor Ind. Machine Having Asymmetry in Stator and Rotor Windings |
| Link |
Special Electromechanical Systems |
Lecture 17 - Generalised Rotating-Field Theory of Wound Rotor Ind. Machine Having Asymmetry in Stator and Rotor Windings (Continued...) |
| Link |
Special Electromechanical Systems |
Lecture 18 - Testing of Small Electrical Machines |
| Link |
Special Electromechanical Systems |
Lecture 19 - Testing of 1-Phase Induction Motors |
| Link |
Special Electromechanical Systems |
Lecture 20 - Variable Reluctance (VR) Motors |
| Link |
Special Electromechanical Systems |
Lecture 21 - Switched Reluctance Motor (Continued...) |
| Link |
Special Electromechanical Systems |
Lecture 22 - Switched Reluctance Motor (Continued...) |
| Link |
Special Electromechanical Systems |
Lecture 23 - Switched Reluctance Motor (Continued...) |
| Link |
Special Electromechanical Systems |
Lecture 24 - Stepper Motors |
| Link |
Special Electromechanical Systems |
Lecture 25 - Stepper Motors (Continued...) |
| Link |
Special Electromechanical Systems |
Lecture 26 - Induction Generators |
| Link |
Special Electromechanical Systems |
Lecture 27 - Induction Generators (Continued...) |
| Link |
Special Electromechanical Systems |
Lecture 28 - Doubly Fed Induction Generators |
| Link |
Special Electromechanical Systems |
Lecture 29 - Self Excited Induction Generators |
| Link |
Special Electromechanical Systems |
Lecture 30 - Self Excited Induction Generators (Continued...) |
| Link |
Special Electromechanical Systems |
Lecture 31 - Permanent Magnet Machines |
| Link |
Special Electromechanical Systems |
Lecture 32 - Squareware Permanent Magnet Brushless Motor Drive |
| Link |
Special Electromechanical Systems |
Lecture 33 - Sine Wave Permanent Magnet Brushless Motor Drives |
| Link |
Special Electromechanical Systems |
Lecture 34 - Permanent Magnet Synchronous Motors |
| Link |
NOC:High Power Multilevel Converters - Analysis, Design and Operational Issues |
Lecture 1 - Basic Understanding of Converter (Introduction to Power Converters) |
| Link |
NOC:High Power Multilevel Converters - Analysis, Design and Operational Issues |
Lecture 2 - Basic Understanding of Converter (Half Bridge and Full Bridge Circuit Operation) |
| Link |
NOC:High Power Multilevel Converters - Analysis, Design and Operational Issues |
Lecture 3 - Basic Understanding of Converter (Sinusoidal Pulse width Modulation and Three Phase Circuit) |
| Link |
NOC:High Power Multilevel Converters - Analysis, Design and Operational Issues |
Lecture 4 - Basic Understanding of Converter (Harmonics in Sinusoidal PWM) |
| Link |
NOC:High Power Multilevel Converters - Analysis, Design and Operational Issues |
Lecture 5 - Third harmonic addition in Sine PWM |
| Link |
NOC:High Power Multilevel Converters - Analysis, Design and Operational Issues |
Lecture 6 - Introduction to Space Vectors |
| Link |
NOC:High Power Multilevel Converters - Analysis, Design and Operational Issues |
Lecture 7 - Space Vector PWM - Timing Calculation |
| Link |
NOC:High Power Multilevel Converters - Analysis, Design and Operational Issues |
Lecture 8 - Space Vector PWM - Switching Sequence |
| Link |
NOC:High Power Multilevel Converters - Analysis, Design and Operational Issues |
Lecture 9 - Space Vector PWM - Using Carriers |
| Link |
NOC:High Power Multilevel Converters - Analysis, Design and Operational Issues |
Lecture 10 - Basic Introduction to Power Devices |
| Link |
NOC:High Power Multilevel Converters - Analysis, Design and Operational Issues |
Lecture 11 - Introduction to Multilevel Converters |
| Link |
NOC:High Power Multilevel Converters - Analysis, Design and Operational Issues |
Lecture 12 - Cascaded H-bridge Multilevel Converters |
| Link |
NOC:High Power Multilevel Converters - Analysis, Design and Operational Issues |
Lecture 13 - Output Voltage Waveform Synthesis in CHB Converter and Basic of Asymmetrical CHB Converters |
| Link |
NOC:High Power Multilevel Converters - Analysis, Design and Operational Issues |
Lecture 14 - Cascaded H-Bridge Converters: Phase-Shifted PWM |
| Link |
NOC:High Power Multilevel Converters - Analysis, Design and Operational Issues |
Lecture 15 - Cascaded H-Bridge Converters: Level-Shifted PWM |
| Link |
NOC:High Power Multilevel Converters - Analysis, Design and Operational Issues |
Lecture 16 - Fault Tolerant Operation of Cascaded H-Bridge Converter - Part I |
| Link |
NOC:High Power Multilevel Converters - Analysis, Design and Operational Issues |
Lecture 17 - Fault Tolerant Operation of Cascaded H-Bridge Converter - Part II |
| Link |
NOC:High Power Multilevel Converters - Analysis, Design and Operational Issues |
Lecture 18 - Modular Multilevel Converter - Topology and Operation |
| Link |
NOC:High Power Multilevel Converters - Analysis, Design and Operational Issues |
Lecture 19 - Modular Multilevel Converter - Arm and Cell Voltage Ratings |
| Link |
NOC:High Power Multilevel Converters - Analysis, Design and Operational Issues |
Lecture 20 - Modular Multilevel Converter - Arm Currents |
| Link |
NOC:High Power Multilevel Converters - Analysis, Design and Operational Issues |
Lecture 21 - Modular Multilevel Converter - Arm Energy Balancing |
| Link |
NOC:High Power Multilevel Converters - Analysis, Design and Operational Issues |
Lecture 22 - Modular Multilevel Converter - Different Circuit Topologies |
| Link |
NOC:High Power Multilevel Converters - Analysis, Design and Operational Issues |
Lecture 23 - Modular Multilevel Converter - PWM Technique and Capacitor Voltage Balancing |
| Link |
NOC:High Power Multilevel Converters - Analysis, Design and Operational Issues |
Lecture 24 - Modular Multilevel Converter - Fault Tolerant Operation and Commercial Production |
| Link |
NOC:High Power Multilevel Converters - Analysis, Design and Operational Issues |
Lecture 25 - Design of Components in MMC |
| Link |
NOC:High Power Multilevel Converters - Analysis, Design and Operational Issues |
Lecture 26 - Neutral Point Clamped Converter - Circuit Topology - Part I |
| Link |
NOC:High Power Multilevel Converters - Analysis, Design and Operational Issues |
Lecture 27 - Neutral Point Clamped Converter - Circuit Topology - Part II |
| Link |
NOC:High Power Multilevel Converters - Analysis, Design and Operational Issues |
Lecture 28 - Neutral Point Clamped Converter - Space Vector Diagram |
| Link |
NOC:High Power Multilevel Converters - Analysis, Design and Operational Issues |
Lecture 29 - Neutral Point Clamped Converter - Space Vector PWM |
| Link |
NOC:High Power Multilevel Converters - Analysis, Design and Operational Issues |
Lecture 30 - NPC - Sinusoidal PWM and Space Vector PWM using Single Carrier Strategy |
| Link |
NOC:High Power Multilevel Converters - Analysis, Design and Operational Issues |
Lecture 31 - Neutral Point Clamped Converter - Mid-point Voltage Fluctuations |
| Link |
NOC:High Power Multilevel Converters - Analysis, Design and Operational Issues |
Lecture 32 - Neutral Point Clamped Converter - Capacitor Voltage Balancing |
| Link |
NOC:High Power Multilevel Converters - Analysis, Design and Operational Issues |
Lecture 33 - Neutral Point Clamped Converter - Another Strategy of Capacitor Voltage Balancing |
| Link |
NOC:High Power Multilevel Converters - Analysis, Design and Operational Issues |
Lecture 34 - Other Topologies of NPC Converters - Higher Level NPC, TNPC and Active NPC |
| Link |
NOC:High Power Multilevel Converters - Analysis, Design and Operational Issues |
Lecture 35 - Multipulse Transformer - Part I |
| Link |
NOC:High Power Multilevel Converters - Analysis, Design and Operational Issues |
Lecture 36 - Multipulse Transformer - Part II |
| Link |
NOC:High Power Multilevel Converters - Analysis, Design and Operational Issues |
Lecture 37 - A Case Study on MMC and CHB |
| Link |
NOC:High Power Multilevel Converters - Analysis, Design and Operational Issues |
Lecture 38 - Basics of Gate Driver Circuits |
| Link |
NOC:High Power Multilevel Converters - Analysis, Design and Operational Issues |
Lecture 39 - Gate Driver Circuits - Turn-on and Turn-off Process |
| Link |
NOC:High Power Multilevel Converters - Analysis, Design and Operational Issues |
Lecture 40 - Gate Driver Circuits - Features of Gate Drivers and Basics of Bootstrap Functionality |
| Link |
NOC:High Power Multilevel Converters - Analysis, Design and Operational Issues |
Lecture 41 - Condition Monitoring of Converters |
| Link |
NOC:High Power Multilevel Converters - Analysis, Design and Operational Issues |
Lecture 42 - Other Converter Topologies |
| Link |
NOC:High Power Multilevel Converters - Analysis, Design and Operational Issues |
Lecture 43 - Summary of the Course |
| Link |
NOC:Introduction to Embedded System Design |
Lecture 1 - Introduction |
| Link |
NOC:Introduction to Embedded System Design |
Lecture 2 - Introduction continued with Project demos |
| Link |
NOC:Introduction to Embedded System Design |
Lecture 3 - Modular Approach to ESD |
| Link |
NOC:Introduction to Embedded System Design |
Lecture 4 - Modular Approach to ESD (Continued...) |
| Link |
NOC:Introduction to Embedded System Design |
Lecture 5 - Salient Features of Modern Microcontrollers |
| Link |
NOC:Introduction to Embedded System Design |
Lecture 6 - Salient Features of Modern Microcontrollers (Continued...) |
| Link |
NOC:Introduction to Embedded System Design |
Lecture 7 - Elements of Microcontroller Ecosystem |
| Link |
NOC:Introduction to Embedded System Design |
Lecture 8 - Elements of Microcontroller Ecosystem (Continued...) |
| Link |
NOC:Introduction to Embedded System Design |
Lecture 9 - Power Supply for Embedded Systems |
| Link |
NOC:Introduction to Embedded System Design |
Lecture 10 - Power Supply for Embedded Systems (Continued...) |
| Link |
NOC:Introduction to Embedded System Design |
Lecture 11 - Introduction to MSP430 |
| Link |
NOC:Introduction to Embedded System Design |
Lecture 12 - MSP430 Architecture |
| Link |
NOC:Introduction to Embedded System Design |
Lecture 13 - MSP430 Architecture- (Continued...) And Introduction to Lunchbox |
| Link |
NOC:Introduction to Embedded System Design |
Lecture 14 - Programming Methods for MSP430 |
| Link |
NOC:Introduction to Embedded System Design |
Lecture 15 - Physical Interfacing - 1 |
| Link |
NOC:Introduction to Embedded System Design |
Lecture 16 - Physical Interfacing - 2 |
| Link |
NOC:Introduction to Embedded System Design |
Lecture 17 - Physical Interfacing - 3 |
| Link |
NOC:Introduction to Embedded System Design |
Lecture 18 - Physical Interfacing - 4 |
| Link |
NOC:Introduction to Embedded System Design |
Lecture 19 - Physical Interfacing - 5 |
| Link |
NOC:Introduction to Embedded System Design |
Lecture 20 - Physical Interfacing - 6 |
| Link |
NOC:Introduction to Embedded System Design |
Lecture 21 - GIT, CCS Installation and Embedded C |
| Link |
NOC:Introduction to Embedded System Design |
Lecture 22 - MSP430 Digital I/O |
| Link |
NOC:Introduction to Embedded System Design |
Lecture 23 - MSP430 Digital I/O: Switch Interfacing |
| Link |
NOC:Introduction to Embedded System Design |
Lecture 24 - MSP430 Clock System and Reset |
| Link |
NOC:Introduction to Embedded System Design |
Lecture 25 - Interrupts in MSP430 |
| Link |
NOC:Introduction to Embedded System Design |
Lecture 26 - Interrupts in MSP430 (Continued...) |
| Link |
NOC:Introduction to Embedded System Design |
Lecture 27 - Interfacing Seven Segment Displays with MSP430; Low Power Modes in MSP430 |
| Link |
NOC:Introduction to Embedded System Design |
Lecture 28 - Interfacing Liquid Crystal Displays (LCD) |
| Link |
NOC:Introduction to Embedded System Design |
Lecture 29 - MSP430 Timer Module: Introduction and Timer Capture |
| Link |
NOC:Introduction to Embedded System Design |
Lecture 30 - Pulse Width Modulation, PWM using Timer Capture |
| Link |
NOC:Introduction to Embedded System Design |
Lecture 31 - Analog to Digital Converter in the MSP430 |
| Link |
NOC:Introduction to Embedded System Design |
Lecture 32 - ADC and DAC using R2R Ladder and Random number generation using LFSR |
| Link |
NOC:Introduction to Embedded System Design |
Lecture 33 - Serial Communication Protocols, USCI Module in MSP430 |
| Link |
NOC:Introduction to Embedded System Design |
Lecture 34 - MSP430 Timer in Capture Mode |
| Link |
NOC:Introduction to Embedded System Design |
Lecture 35 - Coding Ninja |
| Link |
NOC:Introduction to Embedded System Design |
Lecture 36 - Building an Electronics Project |
| Link |
NOC:Introduction to Embedded System Design |
Lecture 37 - Circuit Prototyping Techniques |
| Link |
NOC:Introduction to Embedded System Design |
Lecture 38 - Single Purpose Computers |
| Link |
NOC:Introduction to Embedded System Design |
Lecture 39 - Single Purpose Computers (Continued...) |
| Link |
NOC:Introduction to Embedded System Design |
Lecture 40 - Recap of Course Coverage and Project Demonstration from Concept to Final |
| Link |
NOC:Power Quality |
Lecture 1 - Power Quality - An Introduction |
| Link |
NOC:Power Quality |
Lecture 2 - Power Quality Standards and Monitoring |
| Link |
NOC:Power Quality |
Lecture 3 - Power Quality Standards and Monitoring (Continued...) |
| Link |
NOC:Power Quality |
Lecture 4 - Passive Shunt and Series Compensations |
| Link |
NOC:Power Quality |
Lecture 5 - Passive Shunt and Series Compensations (Continued...) |
| Link |
NOC:Power Quality |
Lecture 6 - Passive Shunt and Series Compensations (Continued...) |
| Link |
NOC:Power Quality |
Lecture 7 - Active Shunt Compensation |
| Link |
NOC:Power Quality |
Lecture 8 - Active Shunt Compensation (Continued...) |
| Link |
NOC:Power Quality |
Lecture 9 - Active Shunt Compensation (Continued...) |
| Link |
NOC:Power Quality |
Lecture 10 - Active Series Compensation |
| Link |
NOC:Power Quality |
Lecture 11 - Active Series Compensation (Continued...) |
| Link |
NOC:Power Quality |
Lecture 12 - Unified Power Quality Compensators |
| Link |
NOC:Power Quality |
Lecture 13 - Unified Power Quality Compensators (Continued...) |
| Link |
NOC:Power Quality |
Lecture 14 - Unified Power Quality Compensators (Continued...) |
| Link |
NOC:Power Quality |
Lecture 15 - Loads Which Cause Power Quality Problems |
| Link |
NOC:Power Quality |
Lecture 16 - Loads Which Cause Power Quality Problems (Continued...) |
| Link |
NOC:Power Quality |
Lecture 17 - Passive Power Filters |
| Link |
NOC:Power Quality |
Lecture 18 - Passive Power Filters (Continued...) |
| Link |
NOC:Power Quality |
Lecture 19 - Passive Power Filters (Continued...) |
| Link |
NOC:Power Quality |
Lecture 20 - Shunt Active Power Filters |
| Link |
NOC:Power Quality |
Lecture 21 - Shunt Active Power Filters (Continued...) |
| Link |
NOC:Power Quality |
Lecture 22 - Shunt Active Power Filters (Continued...) |
| Link |
NOC:Power Quality |
Lecture 23 - Active Series Power Filters |
| Link |
NOC:Power Quality |
Lecture 24 - Active Series Power Filters (Continued...) |
| Link |
NOC:Power Quality |
Lecture 25 - Active Series Power Filters (Continued...) |
| Link |
NOC:Power Quality |
Lecture 26 - Hybrid Power Filters |
| Link |
NOC:Power Quality |
Lecture 27 - Hybrid Power Filters (Continued...) |
| Link |
NOC:Power Quality |
Lecture 28 - Hybrid Power Filters (Continued...) |
| Link |
NOC:Power Quality |
Lecture 29 - AC-DC Converters That Cause Power Quality |
| Link |
NOC:Power Quality |
Lecture 30 - Improved Power Quality Converters - AC-DC Boost Converters |
| Link |
NOC:Power Quality |
Lecture 31 - Improved Power Quality Converters - AC-DC Boost Converters (Continued...) |
| Link |
NOC:Power Quality |
Lecture 32 - Improved Power Quality Converters - AC-DC Buck Converters |
| Link |
NOC:Power Quality |
Lecture 33 - Improved Power Quality Converters - AC-DC Buck-Boost Converters |
| Link |
NOC:Power Quality |
Lecture 34 - Improved Power Quality Converters - AC-DC Buck-Boost Converters (Continued...) |
| Link |
NOC:Power Quality |
Lecture 35 - Improved Power Quality Converters - AC-DC Buck-Boost Converters (Continued...) |
| Link |
NOC:Power Quality |
Lecture 36 - Three Phase AC-DC Improved Power Quality Converters |
| Link |
NOC:Power Quality |
Lecture 37 - Multipulse Converters |
| Link |
NOC:Power Quality |
Lecture 38 - Multipulse Converters (Continued...) |
| Link |
NOC:Power Quality |
Lecture 39 - Multipulse Converters (Continued...) |
| Link |
NOC:Power Quality |
Lecture 40 - Power Quality Improvement in Solar Energy Conversion System |
| Link |
NOC:Power Quality |
Lecture 41 - Power Quality Improvement in Solar Energy Conversion System (Continued...) |
| Link |
NOC:Power Quality |
Lecture 42 - Power Quality Improvement in Wind Energy Conversion System |
| Link |
NOC:Power Quality |
Lecture 43 - Power Quality Improvement in Diesel Generator Set Based Power Supply System |
| Link |
NOC:Power Quality |
Lecture 44 - Power Quality Improvement in Diesel Generator Set Based Power Supply System (Continued...) |
| Link |
NOC:Power Quality |
Lecture 45 - Power Quality Improvement in Distributed Generation Sources Based Microgrids |
| Link |
NOC:Introduction to Electrical Engineering |
Lecture 1 |
| Link |
NOC:Introduction to Electrical Engineering |
Lecture 2 |
| Link |
NOC:Introduction to Electrical Engineering |
Lecture 3 |
| Link |
NOC:Introduction to Electrical Engineering |
Lecture 4 |
| Link |
NOC:Introduction to Electrical Engineering |
Lecture 5 |
| Link |
NOC:Introduction to Electrical Engineering |
Lecture 6 |
| Link |
NOC:Introduction to Electrical Engineering |
Lecture 7 |
| Link |
NOC:Introduction to Electrical Engineering |
Lecture 8 |
| Link |
NOC:Introduction to Electrical Engineering |
Lecture 9 |
| Link |
NOC:Introduction to Electrical Engineering |
Lecture 10 |
| Link |
NOC:Introduction to Electrical Engineering |
Lecture 11 |
| Link |
NOC:Introduction to Electrical Engineering |
Lecture 12 |
| Link |
NOC:Introduction to Electrical Engineering |
Lecture 13 |
| Link |
NOC:Introduction to Electrical Engineering |
Lecture 14 |
| Link |
NOC:Introduction to Electrical Engineering |
Lecture 15 |
| Link |
NOC:Introduction to Electrical Engineering |
Lecture 16 |
| Link |
NOC:Introduction to Electrical Engineering |
Lecture 17 |
| Link |
NOC:Introduction to Electrical Engineering |
Lecture 18 |
| Link |
NOC:Introduction to Electrical Engineering |
Lecture 19 |
| Link |
NOC:Introduction to Electrical Engineering |
Lecture 20 |
| Link |
NOC:Introduction to Electrical Engineering |
Lecture 21 |
| Link |
NOC:Introduction to Electrical Engineering |
Lecture 22 |
| Link |
NOC:Introduction to Electrical Engineering |
Lecture 23 |
| Link |
NOC:Introduction to Electrical Engineering |
Lecture 24 |
| Link |
NOC:Introduction to Electrical Engineering |
Lecture 25 |
| Link |
NOC:Introduction to Electrical Engineering |
Lecture 26 |
| Link |
NOC:Introduction to Electrical Engineering |
Lecture 27 |
| Link |
NOC:Introduction to Electrical Engineering |
Lecture 28 |
| Link |
NOC:Introduction to Electrical Engineering |
Lecture 29 |
| Link |
NOC:Introduction to Electrical Engineering |
Lecture 30 |
| Link |
NOC:Introduction to Electrical Engineering |
Lecture 31 |
| Link |
NOC:Introduction to Electrical Engineering |
Lecture 32 |
| Link |
NOC:Introduction to Electrical Engineering |
Lecture 33 |
| Link |
NOC:Introduction to Electrical Engineering |
Lecture 34 |
| Link |
NOC:Introduction to Electrical Engineering |
Lecture 35 |
| Link |
NOC:Introduction to Electrical Engineering |
Lecture 36 |
| Link |
NOC:Introduction to Electrical Engineering |
Lecture 37 |
| Link |
NOC:Introduction to Electrical Engineering |
Lecture 38 |
| Link |
NOC:Introduction to Electrical Engineering |
Lecture 39 |
| Link |
NOC:Introduction to Electrical Engineering |
Lecture 40 |
| Link |
NOC:Introduction to Electrical Engineering |
Lecture 41 |
| Link |
NOC:Introduction to Electrical Engineering |
Lecture 42 |
| Link |
NOC:Transducers for Instrumentation |
Lecture 1 |
| Link |
NOC:Transducers for Instrumentation |
Lecture 2 |
| Link |
NOC:Transducers for Instrumentation |
Lecture 3 |
| Link |
NOC:Transducers for Instrumentation |
Lecture 4 |
| Link |
NOC:Transducers for Instrumentation |
Lecture 5 |
| Link |
NOC:Transducers for Instrumentation |
Lecture 6 |
| Link |
NOC:Transducers for Instrumentation |
Lecture 7 |
| Link |
NOC:Transducers for Instrumentation |
Lecture 8 |
| Link |
NOC:Transducers for Instrumentation |
Lecture 9 |
| Link |
NOC:Transducers for Instrumentation |
Lecture 10 |
| Link |
NOC:Transducers for Instrumentation |
Lecture 11 |
| Link |
NOC:Transducers for Instrumentation |
Lecture 12 |
| Link |
NOC:Transducers for Instrumentation |
Lecture 13 |
| Link |
NOC:Transducers for Instrumentation |
Lecture 14 |
| Link |
NOC:Transducers for Instrumentation |
Lecture 15 |
| Link |
NOC:Transducers for Instrumentation |
Lecture 16 |
| Link |
NOC:Transducers for Instrumentation |
Lecture 17 |
| Link |
NOC:Transducers for Instrumentation |
Lecture 18 |
| Link |
NOC:Transducers for Instrumentation |
Lecture 19 |
| Link |
NOC:Transducers for Instrumentation |
Lecture 20 |
| Link |
NOC:Transducers for Instrumentation |
Lecture 21 |
| Link |
NOC:Transducers for Instrumentation |
Lecture 22 |
| Link |
NOC:Transducers for Instrumentation |
Lecture 23 |
| Link |
NOC:Transducers for Instrumentation |
Lecture 24 |
| Link |
NOC:Transducers for Instrumentation |
Lecture 25 |
| Link |
NOC:Transducers for Instrumentation |
Lecture 26 |
| Link |
NOC:Transducers for Instrumentation |
Lecture 27 |
| Link |
NOC:Transducers for Instrumentation |
Lecture 28 |
| Link |
NOC:Transducers for Instrumentation |
Lecture 29 |
| Link |
NOC:Transducers for Instrumentation |
Lecture 30 |
| Link |
NOC:Transducers for Instrumentation |
Lecture 31 |
| Link |
NOC:Transducers for Instrumentation |
Lecture 32 |
| Link |
NOC:Transducers for Instrumentation |
Lecture 33 |
| Link |
NOC:Transducers for Instrumentation |
Lecture 34 |
| Link |
NOC:Transducers for Instrumentation |
Lecture 35 |
| Link |
NOC:Transducers for Instrumentation |
Lecture 36 |
| Link |
Advanced Control Systems |
Lecture 1 - Introduction |
| Link |
Advanced Control Systems |
Lecture 2 - Control structures and performance measures |
| Link |
Advanced Control Systems |
Lecture 3 - Time and frequency domain performance measures |
| Link |
Advanced Control Systems |
Lecture 4 - Design of controller |
| Link |
Advanced Control Systems |
Lecture 5 - Design of controller for SISO system |
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Advanced Control Systems |
Lecture 6 - Controller design for TITO processes |
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Advanced Control Systems |
Lecture 7 - Limitations of PID controllers |
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Advanced Control Systems |
Lecture 8 - PI-PD controller for SISO system |
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Advanced Control Systems |
Lecture 9 - PID-P controller for Two Input Two Output system |
| Link |
Advanced Control Systems |
Lecture 10 - Effects of measurement noise and load |
| Link |
Advanced Control Systems |
Lecture 11 - Identification of dynamic models of plants |
| Link |
Advanced Control Systems |
Lecture 12 - Relay control system for identification |
| Link |
Advanced Control Systems |
Lecture 13 - Off-line identification of process dynamics |
| Link |
Advanced Control Systems |
Lecture 14 - On-line identification of plant dynamics |
| Link |
Advanced Control Systems |
Lecture 15 - State space based identification |
| Link |
Advanced Control Systems |
Lecture 16 - State space analysis of systems |
| Link |
Advanced Control Systems |
Lecture 17 - State space based identification of systems - 1 |
| Link |
Advanced Control Systems |
Lecture 18 - State space based identification of systems - 2 |
| Link |
Advanced Control Systems |
Lecture 19 - Identification of simple systems |
| Link |
Advanced Control Systems |
Lecture 20 - Identification of FOPDT model |
| Link |
Advanced Control Systems |
Lecture 21 - Identification of second order plus dead time model |
| Link |
Advanced Control Systems |
Lecture 22 - Identification of SOPDT model |
| Link |
Advanced Control Systems |
Lecture 23 - Steady state gain from asymmetrical relay test |
| Link |
Advanced Control Systems |
Lecture 24 - Identification of SOPDT model with pole multiplicity |
| Link |
Advanced Control Systems |
Lecture 25 - Existence of limit cycle for unstable system |
| Link |
Advanced Control Systems |
Lecture 26 - Identification procedures |
| Link |
Advanced Control Systems |
Lecture 27 - Identification of underdamped systems |
| Link |
Advanced Control Systems |
Lecture 28 - Off-line identification of TITO systems |
| Link |
Advanced Control Systems |
Lecture 29 - On-line identification of TITO systems |
| Link |
Advanced Control Systems |
Lecture 30 - Review of time domain based identification |
| Link |
Advanced Control Systems |
Lecture 31 - DF based analytical expressions for on-line identification |
| Link |
Advanced Control Systems |
Lecture 32 - Model parameter accuracy and sensitivity |
| Link |
Advanced Control Systems |
Lecture 33 - Improved identification using Fourier series and wavelet transform |
| Link |
Advanced Control Systems |
Lecture 34 - Reviews of DF based identification |
| Link |
Advanced Control Systems |
Lecture 35 - Advanced Smith predictor controller |
| Link |
Advanced Control Systems |
Lecture 36 - Design of controllers for the advanced Smith predictor |
| Link |
Advanced Control Systems |
Lecture 37 - Model-free controller design |
| Link |
Advanced Control Systems |
Lecture 38 - Model Based PID controller Design - I |
| Link |
Advanced Control Systems |
Lecture 39 - Model Based PI-PD controller Design - II |
| Link |
Advanced Control Systems |
Lecture 40 - Tuning of reconfigurable PID controllers |
| Link |
NOC:Optimization Techniques for Digital VLSI Design |
Lecture 1 - Introduction to Digital VLSI Design Flow |
| Link |
NOC:Optimization Techniques for Digital VLSI Design |
Lecture 2 - High-level Synthesis (HLS) flow with an example |
| Link |
NOC:Optimization Techniques for Digital VLSI Design |
Lecture 3 - Automation of High-level Synthesis Steps |
| Link |
NOC:Optimization Techniques for Digital VLSI Design |
Lecture 4 - Impact of Coding Style on HLS Results |
| Link |
NOC:Optimization Techniques for Digital VLSI Design |
Lecture 5 - Impact of Compiler Optimizations on HLS Results |
| Link |
NOC:Optimization Techniques for Digital VLSI Design |
Lecture 6 - RTL Optimizations for Timing |
| Link |
NOC:Optimization Techniques for Digital VLSI Design |
Lecture 7 - Retiming |
| Link |
NOC:Optimization Techniques for Digital VLSI Design |
Lecture 8 - RTL Optimizations for Area |
| Link |
NOC:Optimization Techniques for Digital VLSI Design |
Lecture 9 - RTL Optimizations for Power |
| Link |
NOC:Optimization Techniques for Digital VLSI Design |
Lecture 10 - High Level Synthesis: Introduction to Logic Synthesis |
| Link |
NOC:Optimization Techniques for Digital VLSI Design |
Lecture 11 - Overview of FPGA Technology Mapping |
| Link |
NOC:Optimization Techniques for Digital VLSI Design |
Lecture 12 - Introduction to Physical Synthesis |
| Link |
NOC:Optimization Techniques for Digital VLSI Design |
Lecture 13 - Introduction to Digital VLSI Testing - I |
| Link |
NOC:Optimization Techniques for Digital VLSI Design |
Lecture 14 - Introduction to Digital VLSI Testing - II |
| Link |
NOC:Optimization Techniques for Digital VLSI Design |
Lecture 15 - Optimization Techniques for ATPG - Part I |
| Link |
NOC:Optimization Techniques for Digital VLSI Design |
Lecture 16 - Optimization Techniques for ATPG - Part II |
| Link |
NOC:Optimization Techniques for Digital VLSI Design |
Lecture 17 - Optimization Techniques for Design for Testability |
| Link |
NOC:Optimization Techniques for Digital VLSI Design |
Lecture 18 - High-level fault modeling and RTL level Testing |
| Link |
NOC:Optimization Techniques for Digital VLSI Design |
Lecture 19 - LTL/CTL based Verification |
| Link |
NOC:Optimization Techniques for Digital VLSI Design |
Lecture 20 - Verification of Large Scale Systems |
| Link |
NOC:Optimization Techniques for Digital VLSI Design |
Lecture 21 - BDD based verification |
| Link |
NOC:Optimization Techniques for Digital VLSI Design |
Lecture 22 - Verification: ADD based verification, HDD based verification |
| Link |
NOC:Optimization Techniques for Digital VLSI Design |
Lecture 23 - Verification: Symbolic Model Checking |
| Link |
NOC:Optimization Techniques for Digital VLSI Design |
Lecture 24 - Verification: Bounded Model Checking |
| Link |
NOC:Advanced Topics in Probability and Random Processes |
Lecture 1 - Probability Basics |
| Link |
NOC:Advanced Topics in Probability and Random Processes |
Lecture 2 - Random Variable - I |
| Link |
NOC:Advanced Topics in Probability and Random Processes |
Lecture 3 - Random Variable - II |
| Link |
NOC:Advanced Topics in Probability and Random Processes |
Lecture 4 - Random Vectors and Random Processes |
| Link |
NOC:Advanced Topics in Probability and Random Processes |
Lecture 5 - Infinite Sequence of Events - I |
| Link |
NOC:Advanced Topics in Probability and Random Processes |
Lecture 6 - Infinite Sequence of Events - II |
| Link |
NOC:Advanced Topics in Probability and Random Processes |
Lecture 7 - Convergence of Sequence of Random Variables |
| Link |
NOC:Advanced Topics in Probability and Random Processes |
Lecture 8 - Weak Convergence - I |
| Link |
NOC:Advanced Topics in Probability and Random Processes |
Lecture 9 - Weak Convergence - II |
| Link |
NOC:Advanced Topics in Probability and Random Processes |
Lecture 10 - Laws of Large Numbers |
| Link |
NOC:Advanced Topics in Probability and Random Processes |
Lecture 11 - Central Limit Theorem |
| Link |
NOC:Advanced Topics in Probability and Random Processes |
Lecture 12 - Large Deviation Theory |
| Link |
NOC:Advanced Topics in Probability and Random Processes |
Lecture 13 - Crammer's Theorem for Large Deviation |
| Link |
NOC:Advanced Topics in Probability and Random Processes |
Lecture 14 - Introduction to Markov Processes |
| Link |
NOC:Advanced Topics in Probability and Random Processes |
Lecture 15 - Discrete Time Markov Chain - 1 |
| Link |
NOC:Advanced Topics in Probability and Random Processes |
Lecture 16 - Discrete Time Markov Chain - 2 |
| Link |
NOC:Advanced Topics in Probability and Random Processes |
Lecture 17 - Discrete Time Markov Chain - 3 |
| Link |
NOC:Advanced Topics in Probability and Random Processes |
Lecture 18 - Discrete Time Markov Chain - 4 |
| Link |
NOC:Advanced Topics in Probability and Random Processes |
Lecture 19 - Discrete Time Markov Chain - 5 |
| Link |
NOC:Advanced Topics in Probability and Random Processes |
Lecture 20 - Continuous Time Markov Chain - 1 |
| Link |
NOC:Advanced Topics in Probability and Random Processes |
Lecture 21 - Continuous Time Markov Chain - 2 |
| Link |
NOC:Advanced Topics in Probability and Random Processes |
Lecture 22 - Continuous Time Markov Chain - 3 |
| Link |
NOC:Advanced Topics in Probability and Random Processes |
Lecture 23 - Martingale Process - 1 |
| Link |
NOC:Advanced Topics in Probability and Random Processes |
Lecture 24 - Martingale Process - 2 |
| Link |
NOC:Microwave Engineering |
Lecture 1 - Introduction to Microwave Engineering |
| Link |
NOC:Microwave Engineering |
Lecture 2 - Introduction to Transmission Line Theory |
| Link |
NOC:Microwave Engineering |
Lecture 3 - Lossy Transmission Line |
| Link |
NOC:Microwave Engineering |
Lecture 4 - Smith Chart |
| Link |
NOC:Microwave Engineering |
Lecture 5 - Introduction to Waveguides and Rectangular Waveguide |
| Link |
NOC:Microwave Engineering |
Lecture 6 - Circular Waveguide |
| Link |
NOC:Microwave Engineering |
Lecture 7 - Attenuation Waveguide |
| Link |
NOC:Microwave Engineering |
Lecture 8 - N-port microwave networks and equivalent voltages and currents |
| Link |
NOC:Microwave Engineering |
Lecture 9 - Scattering Matrix (S-Parameters) Part-1 |
| Link |
NOC:Microwave Engineering |
Lecture 10 - Scattering Matrix (S-parameters) Part-2 and Transmission Matrix (ABCD-Parameters) |
| Link |
NOC:Microwave Engineering |
Lecture 11 - Impedance Matching Using L-Section and Series Stub Networks |
| Link |
NOC:Microwave Engineering |
Lecture 12 - Impedance Matching Using Shunt Stub, Double Stub and Quarter wave Transformer |
| Link |
NOC:Microwave Engineering |
Lecture 13 - Multisection Matching Networks and Tapered Lines |
| Link |
NOC:Microwave Engineering |
Lecture 14 - Series and Parallel RLC Resonators |
| Link |
NOC:Microwave Engineering |
Lecture 15 - Transmission Line Resonators |
| Link |
NOC:Microwave Engineering |
Lecture 16 - Waveguide Resonators |
| Link |
NOC:Microwave Engineering |
Lecture 17 - Introduction to power dividers |
| Link |
NOC:Microwave Engineering |
Lecture 18 - Directional couplers |
| Link |
NOC:Microwave Engineering |
Lecture 19 - Microwave Filters - Part 1 |
| Link |
NOC:Microwave Engineering |
Lecture 20 - Microwave Filters - Part 2 |
| Link |
NOC:Microwave Engineering |
Lecture 21 - Characteristics of Microwave BJT and FET |
| Link |
NOC:Microwave Engineering |
Lecture 22 - PIN Diodes and Control Circuits |
| Link |
NOC:Microwave Engineering |
Lecture 23 - Schottky Diodes and Detectors and Tunnel Diodes |
| Link |
NOC:Microwave Engineering |
Lecture 24 - Gunn Diodes, IMPATT Diodes and Varactor Diodes |
| Link |
NOC:Microwave Engineering |
Lecture 25 - Two-Port Power Gain and Stability |
| Link |
NOC:Microwave Engineering |
Lecture 26 - Design of single stage transistor amplifier (for maximum gain, specified gain, low noise) |
| Link |
NOC:Microwave Engineering |
Lecture 27 - RF oscillator |
| Link |
NOC:Microwave Engineering |
Lecture 28 - Limitations of Conventional Tubes at Microwave Ranges |
| Link |
NOC:Microwave Engineering |
Lecture 29 - Introduction to Klystron |
| Link |
NOC:Microwave Engineering |
Lecture 30 - Reflex Klystron, Magnetron and TWT |
| Link |
NOC:Microwave Engineering |
Lecture 31 - Ferrite Devices |
| Link |
NOC:Microwave Engineering |
Lecture 32 - Planar transmission lines for MIC |
| Link |
NOC:Microwave Engineering |
Lecture 33 - Lumped elements for MIC |
| Link |
NOC:Microwave Engineering |
Lecture 34 - Lumped inductor, HMIC and MMIC |
| Link |
NOC:Microwave Engineering |
Lecture 35 - Overview of Radar |
| Link |
NOC:Microwave Engineering |
Lecture 36 - Cellular Communication |
| Link |
NOC:Microwave Engineering |
Lecture 37 - Satellite Communication and Applications of Microwave |
| Link |
NOC:Microprocessors and Interfacing |
Lecture 1 - Microprocessor Operations |
| Link |
NOC:Microprocessors and Interfacing |
Lecture 2 - 8086 Flags |
| Link |
NOC:Microprocessors and Interfacing |
Lecture 3 - Functional Diagram of 8086 |
| Link |
NOC:Microprocessors and Interfacing |
Lecture 4 - 8086 Common and Minimum Mode Signals |
| Link |
NOC:Microprocessors and Interfacing |
Lecture 5 - 8086 Maximum Mode Signals |
| Link |
NOC:Microprocessors and Interfacing |
Lecture 6 - 8086 Data Transfer Instructions |
| Link |
NOC:Microprocessors and Interfacing |
Lecture 7 - 8086 Arithmetic Instructions - I |
| Link |
NOC:Microprocessors and Interfacing |
Lecture 8 - 8086 Arithmetic Instructions - II |
| Link |
NOC:Microprocessors and Interfacing |
Lecture 9 - 8086 Logical Instructions |
| Link |
NOC:Microprocessors and Interfacing |
Lecture 10 - 8086 Branch and String Instructions |
| Link |
NOC:Microprocessors and Interfacing |
Lecture 11 - 8086 Interrupt and Machine Control Instructions |
| Link |
NOC:Microprocessors and Interfacing |
Lecture 12 - Sum of Products, Multi-byte addition |
| Link |
NOC:Microprocessors and Interfacing |
Lecture 13 - Largest number, 2's complement Programs |
| Link |
NOC:Microprocessors and Interfacing |
Lecture 14 - Programs on Subroutines |
| Link |
NOC:Microprocessors and Interfacing |
Lecture 15 - ROM, RAM |
| Link |
NOC:Microprocessors and Interfacing |
Lecture 16 - Example I |
| Link |
NOC:Microprocessors and Interfacing |
Lecture 17 - Example II |
| Link |
NOC:Microprocessors and Interfacing |
Lecture 18 - Architecture, Interfacing to Simple I/O |
| Link |
NOC:Microprocessors and Interfacing |
Lecture 19 - Keyboard Interface |
| Link |
NOC:Microprocessors and Interfacing |
Lecture 20 - 7-segment Display Interface |
| Link |
NOC:Microprocessors and Interfacing |
Lecture 21 - Multiplexed 7-sgment Display Interface |
| Link |
NOC:Microprocessors and Interfacing |
Lecture 22 - Stepper motor, Liquid level control |
| Link |
NOC:Microprocessors and Interfacing |
Lecture 23 - Traffic light control, A/D converter |
| Link |
NOC:Microprocessors and Interfacing |
Lecture 24 - D/A converter |
| Link |
NOC:Microprocessors and Interfacing |
Lecture 25 - Electronic weighing machine |
| Link |
NOC:Microprocessors and Interfacing |
Lecture 26 - Programable Interval Timer (8254) |
| Link |
NOC:Microprocessors and Interfacing |
Lecture 27 - Modes of 8254 |
| Link |
NOC:Microprocessors and Interfacing |
Lecture 28 - Architecture of 8259 |
| Link |
NOC:Microprocessors and Interfacing |
Lecture 29 - Initialization command words of 8259 |
| Link |
NOC:Microprocessors and Interfacing |
Lecture 30 - Operational command words of 8259 |
| Link |
NOC:Microprocessors and Interfacing |
Lecture 31 - 8237 Architecture, interfacing and Programming |
| Link |
NOC:Microprocessors and Interfacing |
Lecture 32 - Basic Concepts of serial I/O |
| Link |
NOC:Microprocessors and Interfacing |
Lecture 33 - Basic Concepts of serial I/O (Continued...) |
| Link |
NOC:Microprocessors and Interfacing |
Lecture 34 - Architecture of 8251 |
| Link |
NOC:Statistical Signal Processing |
Lecture 1 - Overview of Statistical Signal Processing |
| Link |
NOC:Statistical Signal Processing |
Lecture 2 - Probability and Random Variables |
| Link |
NOC:Statistical Signal Processing |
Lecture 3 - Linear Algebra of Random Variables |
| Link |
NOC:Statistical Signal Processing |
Lecture 4 - Random Processes |
| Link |
NOC:Statistical Signal Processing |
Lecture 5 - Linear Shift Invariant Systems with Random Inputs |
| Link |
NOC:Statistical Signal Processing |
Lecture 6 - White Noise and Spectral Factorization Theorem |
| Link |
NOC:Statistical Signal Processing |
Lecture 7 - Linear Models of Random Signals |
| Link |
NOC:Statistical Signal Processing |
Lecture 8 - Estimation Theory - 1 |
| Link |
NOC:Statistical Signal Processing |
Lecture 9 - Estimation Theory - 2: MVUE and Cramer Rao Lower Bound |
| Link |
NOC:Statistical Signal Processing |
Lecture 10 - Cramer Rao Lower Bound 2 |
| Link |
NOC:Statistical Signal Processing |
Lecture 11 - MVUE through Sufficient Statistic - 1 |
| Link |
NOC:Statistical Signal Processing |
Lecture 12 - MVUE through Sufficient Statistic - 2 |
| Link |
NOC:Statistical Signal Processing |
Lecture 13 - Method of Moments and Maximum Likelihood Estimators |
| Link |
NOC:Statistical Signal Processing |
Lecture 14 - Properties of Maximum Likelihood Estimator (MLE) |
| Link |
NOC:Statistical Signal Processing |
Lecture 15 - Bayesian Estimators - 1 |
| Link |
NOC:Statistical Signal Processing |
Lecture 16 - Bayesian Estimators - 2 |
| Link |
NOC:Statistical Signal Processing |
Lecture 17 - Optimal linear filters: Wiener Filter |
| Link |
NOC:Statistical Signal Processing |
Lecture 18 - FIR Wiener filter |
| Link |
NOC:Statistical Signal Processing |
Lecture 19 - Non-Causual IIR Wiener Filter |
| Link |
NOC:Statistical Signal Processing |
Lecture 20 - Causal IIR Wiener Filter |
| Link |
NOC:Statistical Signal Processing |
Lecture 21 - Linear Prediction of Signals - 1 |
| Link |
NOC:Statistical Signal Processing |
Lecture 22 - Linear Prediction of Signals - 2 |
| Link |
NOC:Statistical Signal Processing |
Lecture 23 - Linear Prediction of Signals - 3 |
| Link |
NOC:Statistical Signal Processing |
Lecture 24 - Review Assignment - 1 |
| Link |
NOC:Statistical Signal Processing |
Lecture 25 - Adaptive Filters - 1 |
| Link |
NOC:Statistical Signal Processing |
Lecture 26 - Adaptive Filters - 2 |
| Link |
NOC:Statistical Signal Processing |
Lecture 27 - Adaptive Filters - 3 |
| Link |
NOC:Statistical Signal Processing |
Lecture 28 - Review Assignment - 2 |
| Link |
NOC:Statistical Signal Processing |
Lecture 29 - Adaptive Filters - 4 |
| Link |
NOC:Statistical Signal Processing |
Lecture 30 - Adaptive Filters - 4 (Continued...) |
| Link |
NOC:Statistical Signal Processing |
Lecture 31 - Review Assignment - 3 |
| Link |
NOC:Statistical Signal Processing |
Lecture 32 - Recursive Least Squares (RLS) Adaptive Filter - 1 |
| Link |
NOC:Statistical Signal Processing |
Lecture 33 - Recursive Least Squares (RLS) Adaptive Filter - 2 |
| Link |
NOC:Statistical Signal Processing |
Lecture 34 - Review Assignment - 4 |
| Link |
NOC:Statistical Signal Processing |
Lecture 35 - Kalman Filter - 1 |
| Link |
NOC:Statistical Signal Processing |
Lecture 36 - Vector Kalman Filter |
| Link |
NOC:Statistical Signal Processing |
Lecture 37 - Linear Models of Random Signals |
| Link |
NOC:Statistical Signal Processing |
Lecture 38 - Review - 1 |
| Link |
NOC:Statistical Signal Processing |
Lecture 39 - Review - 2 |
| Link |
NOC:Computer Vision and Image Processing - Fundamentals and Applications |
Lecture 1 - Introduction to Digital Image Processing |
| Link |
NOC:Computer Vision and Image Processing - Fundamentals and Applications |
Lecture 2 - Introduction to Computer Vision |
| Link |
NOC:Computer Vision and Image Processing - Fundamentals and Applications |
Lecture 3 - Introduction to Computer Vision and Basic Concepts of Image Formation |
| Link |
NOC:Computer Vision and Image Processing - Fundamentals and Applications |
Lecture 4 - Shape From Shading |
| Link |
NOC:Computer Vision and Image Processing - Fundamentals and Applications |
Lecture 5 - Image Formation: Geometric Camera Models - I |
| Link |
NOC:Computer Vision and Image Processing - Fundamentals and Applications |
Lecture 6 - Image Formation: Geometric Camera Models - II |
| Link |
NOC:Computer Vision and Image Processing - Fundamentals and Applications |
Lecture 7 - Image Formation: Geometric Camera Models - III |
| Link |
NOC:Computer Vision and Image Processing - Fundamentals and Applications |
Lecture 8 - Image Formation in a Stereo Vision Setup |
| Link |
NOC:Computer Vision and Image Processing - Fundamentals and Applications |
Lecture 9 - Image Reconstruction from a Series of Projections |
| Link |
NOC:Computer Vision and Image Processing - Fundamentals and Applications |
Lecture 10 - Image Reconstruction from a Series of Projections |
| Link |
NOC:Computer Vision and Image Processing - Fundamentals and Applications |
Lecture 11 - Image Transforms - I |
| Link |
NOC:Computer Vision and Image Processing - Fundamentals and Applications |
Lecture 12 - Image Transforms - II |
| Link |
NOC:Computer Vision and Image Processing - Fundamentals and Applications |
Lecture 13 - Image Transforms - III |
| Link |
NOC:Computer Vision and Image Processing - Fundamentals and Applications |
Lecture 14 - Image Transforms - IV |
| Link |
NOC:Computer Vision and Image Processing - Fundamentals and Applications |
Lecture 15 - Image Enhancement |
| Link |
NOC:Computer Vision and Image Processing - Fundamentals and Applications |
Lecture 16 - Image Filtering - I |
| Link |
NOC:Computer Vision and Image Processing - Fundamentals and Applications |
Lecture 17 - Image Filtering - II |
| Link |
NOC:Computer Vision and Image Processing - Fundamentals and Applications |
Lecture 18 - Colour Image Processing - I |
| Link |
NOC:Computer Vision and Image Processing - Fundamentals and Applications |
Lecture 19 - Colour Image Processing - II |
| Link |
NOC:Computer Vision and Image Processing - Fundamentals and Applications |
Lecture 20 - Image Segmentation |
| Link |
NOC:Computer Vision and Image Processing - Fundamentals and Applications |
Lecture 21 - Image Features and Edge Detection |
| Link |
NOC:Computer Vision and Image Processing - Fundamentals and Applications |
Lecture 22 - Edge Detection |
| Link |
NOC:Computer Vision and Image Processing - Fundamentals and Applications |
Lecture 23 - Hough Transform |
| Link |
NOC:Computer Vision and Image Processing - Fundamentals and Applications |
Lecture 24 - Image Texture Analysis - I |
| Link |
NOC:Computer Vision and Image Processing - Fundamentals and Applications |
Lecture 25 - Image Texture Analysis - II |
| Link |
NOC:Computer Vision and Image Processing - Fundamentals and Applications |
Lecture 26 - Object Boundary and Shape Representations - I |
| Link |
NOC:Computer Vision and Image Processing - Fundamentals and Applications |
Lecture 27 - Object Boundary and Shape Representations - II |
| Link |
NOC:Computer Vision and Image Processing - Fundamentals and Applications |
Lecture 28 - Interest Point Detectors |
| Link |
NOC:Computer Vision and Image Processing - Fundamentals and Applications |
Lecture 29 - Image Features - HOG and SIFT |
| Link |
NOC:Computer Vision and Image Processing - Fundamentals and Applications |
Lecture 30 - Introduction to Machine Learning - I |
| Link |
NOC:Computer Vision and Image Processing - Fundamentals and Applications |
Lecture 31 - Introduction to Machine Learning - II |
| Link |
NOC:Computer Vision and Image Processing - Fundamentals and Applications |
Lecture 32 - Introduction to Machine Learning - III |
| Link |
NOC:Computer Vision and Image Processing - Fundamentals and Applications |
Lecture 33 - Introduction to Machine Learning - IV |
| Link |
NOC:Computer Vision and Image Processing - Fundamentals and Applications |
Lecture 34 - Introduction to Machine Learning - V |
| Link |
NOC:Computer Vision and Image Processing - Fundamentals and Applications |
Lecture 35 - Artificial Neural Network for Pattern Classification - I |
| Link |
NOC:Computer Vision and Image Processing - Fundamentals and Applications |
Lecture 36 - Artificial Neural Network for Pattern Classification - II |
| Link |
NOC:Computer Vision and Image Processing - Fundamentals and Applications |
Lecture 37 - Introduction to Deep Learning |
| Link |
NOC:Computer Vision and Image Processing - Fundamentals and Applications |
Lecture 38 - Gesture Recognition |
| Link |
NOC:Computer Vision and Image Processing - Fundamentals and Applications |
Lecture 39 - Background Modelling and Motion Estimation |
| Link |
NOC:Computer Vision and Image Processing - Fundamentals and Applications |
Lecture 40 - Object Tracking |
| Link |
NOC:Computer Vision and Image Processing - Fundamentals and Applications |
Lecture 41 - Programming Examples |
| Link |
NOC:System Design through VERILOG |
Lecture 1 - Verilog Operators and Modules |
| Link |
NOC:System Design through VERILOG |
Lecture 2 - Verilog Ports, Data types and Assignments |
| Link |
NOC:System Design through VERILOG |
Lecture 3 - Basics of gate level modeling |
| Link |
NOC:System Design through VERILOG |
Lecture 4 - Half adder, full adder and ripple carry adder |
| Link |
NOC:System Design through VERILOG |
Lecture 5 - Parallel adder/subtractor |
| Link |
NOC:System Design through VERILOG |
Lecture 6 - Multiplier and comparator |
| Link |
NOC:System Design through VERILOG |
Lecture 7 - Decoder, encoder and multiplexer |
| Link |
NOC:System Design through VERILOG |
Lecture 8 - Demultiplexer, read only memory |
| Link |
NOC:System Design through VERILOG |
Lecture 9 - Review of flip-flops |
| Link |
NOC:System Design through VERILOG |
Lecture 10 - Verilog modeling of flip-flops |
| Link |
NOC:System Design through VERILOG |
Lecture 11 - Modeling of CMOS gates and Boolean functions |
| Link |
NOC:System Design through VERILOG |
Lecture 12 - Modeling using transmission gates, CMOS dalay times |
| Link |
NOC:System Design through VERILOG |
Lecture 13 - Signal strengths |
| Link |
NOC:System Design through VERILOG |
Lecture 14 - Basics of dataflow modeling |
| Link |
NOC:System Design through VERILOG |
Lecture 15 - Examples of dataflow modeling |
| Link |
NOC:System Design through VERILOG |
Lecture 16 - Basics of behavioral modeling |
| Link |
NOC:System Design through VERILOG |
Lecture 17 - Examples of behavioral modeling |
| Link |
NOC:System Design through VERILOG |
Lecture 18 - Verilog modeling of counters |
| Link |
NOC:System Design through VERILOG |
Lecture 19 - Verilog modeling of sequence detector |
| Link |
NOC:System Design through VERILOG |
Lecture 20 - Verilog modeling FSMs and shift registers |
| Link |
NOC:System Design through VERILOG |
Lecture 21 - Combinational circuit examples |
| Link |
NOC:System Design through VERILOG |
Lecture 22 - Sequential circuit examples |
| Link |
NOC:System Design through VERILOG |
Lecture 23 - Arithmetic and Logic Unit (ALU) |
| Link |
NOC:System Design through VERILOG |
Lecture 24 - Static RAM and Braun Multiplier |
| Link |
NOC:System Design through VERILOG |
Lecture 25 - FIR filter implementation |
| Link |
NOC:System Design through VERILOG |
Lecture 26 - Baugh-Wooley signed multiplier architecture |
| Link |
NOC:System Design through VERILOG |
Lecture 27 - IIR filter implementation |
| Link |
NOC:Usability Engineering |
Lecture 1 - Introduction to Usability |
| Link |
NOC:Usability Engineering |
Lecture 2 - Usability - Historical Foundations |
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NOC:Usability Engineering |
Lecture 3 - Standard Terminologies |
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NOC:Usability Engineering |
Lecture 4 - Elements of User Experience |
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NOC:Usability Engineering |
Lecture 5 - Usability in software development - I |
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NOC:Usability Engineering |
Lecture 6 - Usability in software development - II |
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NOC:Usability Engineering |
Lecture 7 - User Centered Design Process - I |
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NOC:Usability Engineering |
Lecture 8 - User Centered Design Process - II |
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NOC:Usability Engineering |
Lecture 9 - User Centered Design Process - III |
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NOC:Usability Engineering |
Lecture 10 - Requirement Analysis - I (A) |
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NOC:Usability Engineering |
Lecture 11 - Requirement Analysis - I (B) |
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NOC:Usability Engineering |
Lecture 12 - Requirement Analysis - I (C) |
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NOC:Usability Engineering |
Lecture 13 - Requirement Analysis - I (D) |
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NOC:Usability Engineering |
Lecture 14 - Requirement Analysis - I (E) |
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NOC:Usability Engineering |
Lecture 15 - Requirement Analysis - I (F) |
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NOC:Usability Engineering |
Lecture 16 - Requirement Analysis - II (A) |
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NOC:Usability Engineering |
Lecture 17 - Requirement Analysis - II (B) |
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NOC:Usability Engineering |
Lecture 18 - Requirement Analysis - II (C) |
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NOC:Usability Engineering |
Lecture 19 - Requirement Analysis - II (D) |
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NOC:Usability Engineering |
Lecture 20 - Requirement Analysis - III (A) |
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NOC:Usability Engineering |
Lecture 21 - Eye Tracker |
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NOC:Usability Engineering |
Lecture 22 - Demonstration of an Eye tracking device |
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NOC:Usability Engineering |
Lecture 23 - Requirement Analysis - III (B) |
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NOC:Usability Engineering |
Lecture 24 - Mapping Experiences |
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NOC:Usability Engineering |
Lecture 25 - Cognitive Issues - I |
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NOC:Usability Engineering |
Lecture 26 - Cognitive Issues - II |
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NOC:Usability Engineering |
Lecture 27 - Cognitive Issues - III |
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NOC:Usability Engineering |
Lecture 28 - Cognitive Issues - IV |
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NOC:Usability Engineering |
Lecture 29 - Competitive analysis and preparing for design briefing - I |
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NOC:Usability Engineering |
Lecture 30 - Competitive analysis and preparing for design briefing - II |
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NOC:Usability Engineering |
Lecture 31 - Conceptualization and Prototyping - I (A) |
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NOC:Usability Engineering |
Lecture 32 - Conceptualization and Prototyping - I (B) |
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NOC:Usability Engineering |
Lecture 33 - Conceptualization and Prototyping - I (C) |
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NOC:Usability Engineering |
Lecture 34 - Conceptualization and Prototyping - II (A) |
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NOC:Usability Engineering |
Lecture 35 - Conceptualization and Prototyping - II (B) |
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NOC:Usability Engineering |
Lecture 36 - Usability heuristics and testing - I |
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NOC:Usability Engineering |
Lecture 37 - Usability heuristics and testing - II |
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NOC:Usability Engineering |
Lecture 38 - Usability heuristics and testing - III |
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NOC:Usability Engineering |
Lecture 39 - Usability Testing (A) |
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NOC:Usability Engineering |
Lecture 40 - Usability Testing (B) |
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NOC:Usability Engineering |
Lecture 41 - Usability Testing (C) |
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NOC:Usability Engineering |
Lecture 42 - UI/UX design based on Garret model: a case study |
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NOC:Usability Engineering |
Lecture 43 - Effective contextual enquiry |
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NOC:Usability Engineering |
Lecture 44 - Contextual enquiry: case study |
| Link |
NOC:Probability and Random Processes |
Lecture 1 - Introduction |
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NOC:Probability and Random Processes |
Lecture 2 - Algebra of Events |
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NOC:Probability and Random Processes |
Lecture 3 - Axioms of Probability |
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NOC:Probability and Random Processes |
Lecture 4 - Example 1 |
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NOC:Probability and Random Processes |
Lecture 5 - Example 2 |
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NOC:Probability and Random Processes |
Lecture 6 - Example 3 |
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NOC:Probability and Random Processes |
Lecture 7 - Example 4 |
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NOC:Probability and Random Processes |
Lecture 8 - Example 5 |
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NOC:Probability and Random Processes |
Lecture 9 - Conditional Probability |
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NOC:Probability and Random Processes |
Lecture 10 - Bayes Theorem 1 |
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NOC:Probability and Random Processes |
Lecture 11 - Bayes Theorem 2 |
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NOC:Probability and Random Processes |
Lecture 12 - A Brief Review |
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NOC:Probability and Random Processes |
Lecture 13 - Example 1 |
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NOC:Probability and Random Processes |
Lecture 14 - Example 2 |
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NOC:Probability and Random Processes |
Lecture 15 - Example 3 |
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NOC:Probability and Random Processes |
Lecture 16 - Example 4 |
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NOC:Probability and Random Processes |
Lecture 17 - Example 5 |
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NOC:Probability and Random Processes |
Lecture 18 - Independent Events |
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NOC:Probability and Random Processes |
Lecture 19 - A Brief Review |
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NOC:Probability and Random Processes |
Lecture 20 - Example 1 |
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NOC:Probability and Random Processes |
Lecture 21 - Example 2 |
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NOC:Probability and Random Processes |
Lecture 22 - Example 3 |
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NOC:Probability and Random Processes |
Lecture 23 - Example 4 |
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NOC:Probability and Random Processes |
Lecture 24 - Discrete Random Variables |
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NOC:Probability and Random Processes |
Lecture 25 - Expectation |
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NOC:Probability and Random Processes |
Lecture 26 - Moments |
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NOC:Probability and Random Processes |
Lecture 27 - Variance |
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NOC:Probability and Random Processes |
Lecture 28 - Binomial Random Variables |
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NOC:Probability and Random Processes |
Lecture 29 - Poisson Random Variables |
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NOC:Probability and Random Processes |
Lecture 30 - More on Poission Random Variables |
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NOC:Probability and Random Processes |
Lecture 31 - Properties of the CDF |
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NOC:Probability and Random Processes |
Lecture 32 - A Brief Review - I |
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NOC:Probability and Random Processes |
Lecture 33 - A Brief Review - II |
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NOC:Probability and Random Processes |
Lecture 34 - Example 1 |
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NOC:Probability and Random Processes |
Lecture 35 - Example 2 |
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NOC:Probability and Random Processes |
Lecture 36 - Example 3 |
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NOC:Probability and Random Processes |
Lecture 37 - Example 4 |
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NOC:Probability and Random Processes |
Lecture 38 - Example 5 |
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NOC:Probability and Random Processes |
Lecture 39 - Example 6 |
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NOC:Probability and Random Processes |
Lecture 40 - Example 7 |
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NOC:Probability and Random Processes |
Lecture 41 - Example 8 |
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NOC:Probability and Random Processes |
Lecture 42 - Example 9 |
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NOC:Probability and Random Processes |
Lecture 43 - Continuous Random Variables |
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NOC:Probability and Random Processes |
Lecture 44 - Expectation of Continuous random variables |
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NOC:Probability and Random Processes |
Lecture 45 - The uniform and the Gaussian Random variables |
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NOC:Probability and Random Processes |
Lecture 46 - The mean and variance of a Gaussian Random Variable |
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NOC:Probability and Random Processes |
Lecture 47 - The exponential random variable and other continuous distributions |
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NOC:Probability and Random Processes |
Lecture 48 - A Brief Review |
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NOC:Probability and Random Processes |
Lecture 49 - Example 1 |
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NOC:Probability and Random Processes |
Lecture 50 - Example 2 |
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NOC:Probability and Random Processes |
Lecture 51 - Example 3 |
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NOC:Probability and Random Processes |
Lecture 52 - Example 4 |
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NOC:Probability and Random Processes |
Lecture 53 - Example 5 |
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NOC:Probability and Random Processes |
Lecture 54 - Functions of a random varible |
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NOC:Probability and Random Processes |
Lecture 55 - Functions of a random varible |
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NOC:Probability and Random Processes |
Lecture 56 - The moment generating function |
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NOC:Probability and Random Processes |
Lecture 57 - Conditional Distributions |
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NOC:Probability and Random Processes |
Lecture 58 - Bivariate Distributions |
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NOC:Probability and Random Processes |
Lecture 59 - Independence of Random Varibles |
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NOC:Probability and Random Processes |
Lecture 60 - Jointly Gaussian Random Varibales and Circular symmetry |
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NOC:Probability and Random Processes |
Lecture 61 - Jointly Discrete Random Variables |
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NOC:Probability and Random Processes |
Lecture 62 - One Function of two random variables |
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NOC:Probability and Random Processes |
Lecture 63 - Order Statistics |
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NOC:Probability and Random Processes |
Lecture 64 - Two functions of two random variables |
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NOC:Probability and Random Processes |
Lecture 65 - Joint Moments |
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NOC:Probability and Random Processes |
Lecture 66 - Joint Charactristic Functions |
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NOC:Probability and Random Processes |
Lecture 67 - Conditional Distributions for multiple random variables |
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NOC:Probability and Random Processes |
Lecture 68 - Conditional Expectations |
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NOC:Probability and Random Processes |
Lecture 69 - Examples |
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NOC:Probability and Random Processes |
Lecture 70 - Random Vectors |
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NOC:Probability and Random Processes |
Lecture 71 - Independence of Random Varibles |
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NOC:Probability and Random Processes |
Lecture 72 - Complex Random Varibales |
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NOC:Probability and Random Processes |
Lecture 73 - Covariance Matrices |
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NOC:Probability and Random Processes |
Lecture 74 - Conditional Densities |
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NOC:Probability and Random Processes |
Lecture 75 - Gaussianity |
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NOC:Probability and Random Processes |
Lecture 76 - Chi Squared Densities |
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NOC:Probability and Random Processes |
Lecture 77 - Examples |
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NOC:Probability and Random Processes |
Lecture 78 - Estimation Theory |
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NOC:Probability and Random Processes |
Lecture 79 - Measurements |
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NOC:Probability and Random Processes |
Lecture 80 - Sequences of Random Variables |
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NOC:Probability and Random Processes |
Lecture 81 - Laws of large numbers |
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NOC:Probability and Random Processes |
Lecture 82 - Random processes |
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NOC:Probability and Random Processes |
Lecture 83 - Stationarity, Cyclostationarity, Ergodicity |
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NOC:Probability and Random Processes |
Lecture 84 - Random Processes as Signals (PSD and LTI Response) |
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NOC:Probability and Random Processes |
Lecture 85 - White and Gaussian Processes Noise |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 1 - Introduction |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 2 - Basics of MATLAB |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 3 - Data Types |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 4 - Floating Point Numbers |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 5 - Scripts and Flow of Control |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 6 - The For Loop |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 7 - Arrays |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 8 - Indexing |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 9 - Some Reuslts from Linear Algebra |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 10 - Matrix Multiplication |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 11 - Eigenvalues and Eigenvectors |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 12 - Complex Numbers |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 13 - Hermitian Matrices |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 14 - Matrix Inversion |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 15 - Signals |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 16 - Convolution |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 17 - Probability |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 18 - Bayes Theorem |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 19 - Random Varibles |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 20 - Clinical Trials - I |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 21 - Clinical Trials - II |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 22 - Random Numbers |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 23 - Random Disttributions |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 24 - Histograms - I |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 25 - Histograms - II |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 26 - Functions of Random Variables |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 27 - Generating Random Disttributions |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 28 - Laws of Large numbers |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 29 - Random Processes |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 30 - Properties of Random Processes |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 31 - Power Spectra |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 32 - Signals and Noise |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 33 - Stochastic Models |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 34 - The AR-1 Process |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 35 - Stochastic Models II |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 36 - Yule Walker Equations |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 37 - Markov Chains - I |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 38 - Markov Chains - II |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 39 - Markov Chains - III |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 40 - Analog to Digital Coversion |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 41 - K Means |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 42 - Correlation |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 43 - Predictive Coding |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 44 - Image Compression |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 45 - Transform Domain Compression |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 46 - Multi Resolution Coding |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 47 - Introduction to Communications |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 48 - Low Pass and BandPass Signals |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 49 - Signal Spaces |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 50 - PAM |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 51 - Detection |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 52 - Effects of AWGN |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 53 - ML Detection - I |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 54 - ML Detection - II |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 55 - The Union Bound |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 56 - Symbol Error Rates |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 57 - Choosing Constellations |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 58 - Orthogonal Signalling |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 59 - Non-Coherent Dection - 1 |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 60 - Non-Coherent Dection - 2 |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 61 - DPSK - I |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 62 - DPSK - II |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 63 - Introduction to Wireless Communications |
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NOC:Simulation of Communication Systems using Matlab |
Lecture 64 - Conclusion |
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NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 1 - Introduction to Machine Learning |
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NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 2 - Performance Measures of Classification |
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NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 3 - Bias-Variance Tradeoff |
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NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 4 - Regression |
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NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 5 - Bayesian Decision Theory - 1 |
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NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 6 - Bayesian Decision Theory - 2 |
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NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 7 - Bayes Decision Theory - Binary Features |
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NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 8 - Bayesian Decision Theory - 3 |
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NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 9 - Bayesian Decision Theory - 4 |
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NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 10 - Bayesian Belief Networks |
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NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 11 - Parameter Estimation and Maximum Likelihood Estimation |
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NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 12 - Parameter Estimation and Bayesian Estimation |
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NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 13 - Concept of non-parametric techniques |
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NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 14 - Density Estimation by Parzen Window |
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NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 15 - Parzen Window and K nearest neighbor algorithm |
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NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 16 - Linear Discriminant Functions and Perceptron Criteria - Part I |
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NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 17 - Linear Discriminant Functions and Perceptron Criteria - Part II |
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NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 18 - Linear Discriminant Functions and Perceptron Criteria - Part III |
| Link |
NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 19 - Support Vector Machine - Part I |
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NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 20 - Support Vector Machine - Part II |
| Link |
NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 21 - Logistic Regression |
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NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 22 - Decision Tree |
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NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 23 - Hidden Markov Model (HMM) |
| Link |
NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 24 - Ensemble Classifiers - Part I |
| Link |
NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 25 - Ensemble Classifiers - Part II |
| Link |
NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 26 - Dimensionality Problem and Principal Component Analysis |
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NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 27 - Principal Component Analysis |
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NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 28 - Linear Discriminant Analysis (LDA) - Part I |
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NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 29 - Linear Discriminant Analysis (LDA) - Part II |
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NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 30 - Gaussian Mixture Model and EM Algorithm |
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NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 31 - K-means clustering. |
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NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 32 - Fuzzy K-means clustering |
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NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 33 - Hierarchical Agglomerative Clustering and Mean-shift Clustering |
| Link |
NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 34 - Artificial Neural Networks for Pattern Classification - Part 1 |
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NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 35 - Artificial Neural Networks for Pattern Classification - Part 2 |
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NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 36 - Artificial Neural Networks for Pattern Classification - Part 3 |
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NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 37 - Introduction to Deep Learning and Convolutional Neural Network (CNN) |
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NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 38 - Vanishing and Exploding Gradients in Deep Neural Networks |
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NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 39 - CNN Architectures - LeNet-5 and AlexNet |
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NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 40 - CNN Architectures - VGG 16, GoogLeNet and ResNet |
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NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 41 - Generative Adversarial Networks (GAN) - Fundamentals and Applications |
| Link |
NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 42 - U-Net: Convolutional Networks for Image Segmentation |
| Link |
NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 43 - Introduction to Autoencoder and Recurrent Neural Networks (RNN) |
| Link |
NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 44 - Programming Concepts - 1 |
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NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 45 - Programming Concepts - 2 |
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NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 46 - Problem Solving Session - 1 |
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NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 47 - Problem Solving Session - 2 |
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NOC:Machine Learning and Deep Learning - Fundamentals and Applications |
Lecture 48 - Problem Solving Session - 3 |
| Link |
Advanced Electric Drives |
Lecture 1 |
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Advanced Electric Drives |
Lecture 2 |
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Advanced Electric Drives |
Lecture 3 |
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Advanced Electric Drives |
Lecture 4 |
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Advanced Electric Drives |
Lecture 5 |
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Advanced Electric Drives |
Lecture 6 |
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Advanced Electric Drives |
Lecture 7 |
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Advanced Electric Drives |
Lecture 8 |
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Advanced Electric Drives |
Lecture 9 |
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Advanced Electric Drives |
Lecture 10 |
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Advanced Electric Drives |
Lecture 11 |
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Advanced Electric Drives |
Lecture 12 |
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Advanced Electric Drives |
Lecture 13 |
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Advanced Electric Drives |
Lecture 14 |
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Advanced Electric Drives |
Lecture 15 |
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Advanced Electric Drives |
Lecture 16 |
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Advanced Electric Drives |
Lecture 17 |
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Advanced Electric Drives |
Lecture 18 |
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Advanced Electric Drives |
Lecture 19 |
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Advanced Electric Drives |
Lecture 20 |
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Advanced Electric Drives |
Lecture 21 |
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Advanced Electric Drives |
Lecture 22 |
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Advanced Electric Drives |
Lecture 23 |
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Advanced Electric Drives |
Lecture 24 |
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Advanced Electric Drives |
Lecture 25 |
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Advanced Electric Drives |
Lecture 26 |
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Advanced Electric Drives |
Lecture 27 |
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Advanced Electric Drives |
Lecture 28 |
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Advanced Electric Drives |
Lecture 29 |
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Advanced Electric Drives |
Lecture 30 |
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Advanced Electric Drives |
Lecture 31 |
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Advanced Electric Drives |
Lecture 32 |
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Advanced Electric Drives |
Lecture 33 |
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Advanced Electric Drives |
Lecture 34 |
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Advanced Electric Drives |
Lecture 35 |
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Advanced Electric Drives |
Lecture 36 |
| Link |
Advanced Electric Drives |
Lecture 37 |
| Link |
Advanced Electric Drives |
Lecture 38 |
| Link |
Advanced Electric Drives |
Lecture 39 |
| Link |
Advanced Electric Drives |
Lecture 40 |
| Link |
High Voltage DC Transmission |
Lecture 1 - High Voltage DC Transmission |
| Link |
High Voltage DC Transmission |
Lecture 2 - High Voltage DC Transmission |
| Link |
High Voltage DC Transmission |
Lecture 3 - High Voltage DC Transmission |
| Link |
High Voltage DC Transmission |
Lecture 4 - High Voltage DC Transmission |
| Link |
High Voltage DC Transmission |
Lecture 5 - High Voltage DC Transmission |
| Link |
High Voltage DC Transmission |
Lecture 6 - High Voltage DC Transmission |
| Link |
High Voltage DC Transmission |
Lecture 7 - High Voltage DC Transmission |
| Link |
High Voltage DC Transmission |
Lecture 8 - High Voltage DC Transmission |
| Link |
High Voltage DC Transmission |
Lecture 9 - High Voltage DC Transmission |
| Link |
High Voltage DC Transmission |
Lecture 10 - High Voltage DC Transmission |
| Link |
High Voltage DC Transmission |
Lecture 11 - High Voltage DC Transmission |
| Link |
High Voltage DC Transmission |
Lecture 12 - High Voltage DC Transmission |
| Link |
High Voltage DC Transmission |
Lecture 13 - High Voltage DC Transmission |
| Link |
High Voltage DC Transmission |
Lecture 14 - High Voltage DC Transmission |
| Link |
High Voltage DC Transmission |
Lecture 15 - High Voltage DC Transmission |
| Link |
High Voltage DC Transmission |
Lecture 16 - High Voltage DC Transmission |
| Link |
High Voltage DC Transmission |
Lecture 17 - High Voltage DC Transmission |
| Link |
High Voltage DC Transmission |
Lecture 18 - High Voltage DC Transmission |
| Link |
High Voltage DC Transmission |
Lecture 19 - High Voltage DC Transmission |
| Link |
High Voltage DC Transmission |
Lecture 20 - High Voltage DC Transmission |
| Link |
High Voltage DC Transmission |
Lecture 21 - High Voltage DC Transmission |
| Link |
High Voltage DC Transmission |
Lecture 22 - High Voltage DC Transmission |
| Link |
High Voltage DC Transmission |
Lecture 23 - High Voltage DC Transmission |
| Link |
High Voltage DC Transmission |
Lecture 24 - High Voltage DC Transmission |
| Link |
High Voltage DC Transmission |
Lecture 25 - High Voltage DC Transmission |
| Link |
High Voltage DC Transmission |
Lecture 26 - High Voltage DC Transmission |
| Link |
High Voltage DC Transmission |
Lecture 27 - High Voltage DC Transmission |
| Link |
High Voltage DC Transmission |
Lecture 28 - High Voltage DC Transmission |
| Link |
High Voltage DC Transmission |
Lecture 29 - High Voltage DC Transmission |
| Link |
High Voltage DC Transmission |
Lecture 30 - High Voltage DC Transmission |
| Link |
High Voltage DC Transmission |
Lecture 31 - High Voltage DC Transmission |
| Link |
High Voltage DC Transmission |
Lecture 32 - High Voltage DC Transmission |
| Link |
High Voltage DC Transmission |
Lecture 33 - High Voltage DC Transmission |
| Link |
High Voltage DC Transmission |
Lecture 34 - High Voltage DC Transmission |
| Link |
High Voltage DC Transmission |
Lecture 35 - High Voltage DC Transmission |
| Link |
High Voltage DC Transmission |
Lecture 36 - High Voltage DC Transmission |
| Link |
High Voltage DC Transmission |
Lecture 37 - High Voltage DC Transmission |
| Link |
Intelligent Systems and Control |
Lecture 1 - Introduction to Intelligent Systems and Control |
| Link |
Intelligent Systems and Control |
Lecture 2 - Linear Neural networks |
| Link |
Intelligent Systems and Control |
Lecture 3 - Multi layered Neural Networks |
| Link |
Intelligent Systems and Control |
Lecture 4 - Back Propagation Algorithm revisited |
| Link |
Intelligent Systems and Control |
Lecture 5 - Non Linear System Analysis - Part I |
| Link |
Intelligent Systems and Control |
Lecture 6 - Non Linear System Analysis - Part II |
| Link |
Intelligent Systems and Control |
Lecture 7 - Radial Basis Function Networks |
| Link |
Intelligent Systems and Control |
Lecture 8 - Adaptive Learning rate |
| Link |
Intelligent Systems and Control |
Lecture 9 - Weight update rules |
| Link |
Intelligent Systems and Control |
Lecture 10 - Recurrent networks Back propagation through time |
| Link |
Intelligent Systems and Control |
Lecture 11 - Recurrent networks Real time recurrent learning |
| Link |
Intelligent Systems and Control |
Lecture 12 - Self organizing Map - Multidimensional networks |
| Link |
Intelligent Systems and Control |
Lecture 13 - Fuzzy sets - A Primer |
| Link |
Intelligent Systems and Control |
Lecture 14 - Fuzzy Relations |
| Link |
Intelligent Systems and Control |
Lecture 15 - Fuzzy Rule base and Approximate Reasoning |
| Link |
Intelligent Systems and Control |
Lecture 16 - Introduction to Fuzzy Logic Control |
| Link |
Intelligent Systems and Control |
Lecture 17 - Neural Control A review |
| Link |
Intelligent Systems and Control |
Lecture 18 - Network inversion and Control |
| Link |
Intelligent Systems and Control |
Lecture 19 - Neural Model of a Robot manipulator |
| Link |
Intelligent Systems and Control |
Lecture 20 - Indirect Adaptive Control of a Robot manipulator |
| Link |
Intelligent Systems and Control |
Lecture 21 - Adaptive neural control for Affine Systems SISO |
| Link |
Intelligent Systems and Control |
Lecture 22 - Adaptive neural control for Affine systems MIMO |
| Link |
Intelligent Systems and Control |
Lecture 23 - Visual Motor Coordination with KSOM |
| Link |
Intelligent Systems and Control |
Lecture 24 - Visual Motor coordination - quantum clustering |
| Link |
Intelligent Systems and Control |
Lecture 25 - Direct Adaptive control of Manipulators - Intro |
| Link |
Intelligent Systems and Control |
Lecture 26 - NN based back stepping control |
| Link |
Intelligent Systems and Control |
Lecture 27 - Fuzzy Control - a Review |
| Link |
Intelligent Systems and Control |
Lecture 28 - Mamdani type flc and parameter optimization |
| Link |
Intelligent Systems and Control |
Lecture 29 - Fuzzy Control of a pH reactor |
| Link |
Intelligent Systems and Control |
Lecture 30 - Fuzzy Lyapunov controller - Computing with words |
| Link |
Intelligent Systems and Control |
Lecture 31 - Controller Design for a T-S Fuzzy model |
| Link |
Intelligent Systems and Control |
Lecture 32 - Linear controllers using T-S fuzzy model |
| Link |
Power Systems Operation and Control |
Module 1 - Lecture 1 |
| Link |
Power Systems Operation and Control |
Module 1 - Lecture 2 |
| Link |
Power Systems Operation and Control |
Module 1 - Lecture 3 |
| Link |
Power Systems Operation and Control |
Module 2 - Lecture 1 |
| Link |
Power Systems Operation and Control |
Module 2 - Lecture 2 |
| Link |
Power Systems Operation and Control |
Module 2 - Lecture 3 |
| Link |
Power Systems Operation and Control |
Module 2 - Lecture 4 |
| Link |
Power Systems Operation and Control |
Module 2 - Lecture 5 |
| Link |
Power Systems Operation and Control |
Module 2 - Lecture 6 |
| Link |
Power Systems Operation and Control |
Module 2 - Lecture 7 |
| Link |
Power Systems Operation and Control |
Module 2 - Lecture 8 |
| Link |
Power Systems Operation and Control |
Module 2 - Lecture 9 |
| Link |
Power Systems Operation and Control |
Module 2 - Lecture 10 |
| Link |
Power Systems Operation and Control |
Module 2 - Lecture 11 |
| Link |
Power Systems Operation and Control |
Module 2 - Lecture 12 |
| Link |
Power Systems Operation and Control |
Module 2 - Lecture 13 |
| Link |
Power Systems Operation and Control |
Module 2 - Lecture 14 |
| Link |
Power Systems Operation and Control |
Module 3 - Lecture 1 |
| Link |
Power Systems Operation and Control |
Module 3 - Lecture 2 |
| Link |
Power Systems Operation and Control |
Module 3 - Lecture 3 |
| Link |
Power Systems Operation and Control |
Module 3 - Lecture 4 |
| Link |
Power Systems Operation and Control |
Module 3 - Lecture 5 |
| Link |
Power Systems Operation and Control |
Module 3 - Lecture 6 |
| Link |
Power Systems Operation and Control |
Module 3 - Lecture 7 |
| Link |
Power Systems Operation and Control |
Module 3 - Lecture 8 |
| Link |
Power Systems Operation and Control |
Module 3 - Lecture 9 |
| Link |
Power Systems Operation and Control |
Module 3 - Lecture 10 |
| Link |
Power Systems Operation and Control |
Module 4 - Lecture 1 |
| Link |
Power Systems Operation and Control |
Module 4 - Lecture 2 |
| Link |
Power Systems Operation and Control |
Module 4 - Lecture 3 |
| Link |
Power Systems Operation and Control |
Module 4 - Lecture 4 |
| Link |
Power Systems Operation and Control |
Module 5 - Lecture 1 |
| Link |
Power Systems Operation and Control |
Module 5 - Lecture 2 |
| Link |
Power Systems Operation and Control |
Module 6 - Lecture 1 |
| Link |
Power Systems Operation and Control |
Module 6 - Lecture 2 |
| Link |
NOC:Electromagnetic theory |
Lecture 1 - Introduction to EMT |
| Link |
NOC:Electromagnetic theory |
Lecture 2 - Coulombs law |
| Link |
NOC:Electromagnetic theory |
Lecture 3 - Vector analysis-I and Introduction to coordinate system |
| Link |
NOC:Electromagnetic theory |
Lecture 4 - Rectangular coordinate system |
| Link |
NOC:Electromagnetic theory |
Lecture 5 - Vector analysis-II |
| Link |
NOC:Electromagnetic theory |
Lecture 6 - Introduction to Electric field |
| Link |
NOC:Electromagnetic theory |
Lecture 7 - Electric field-I |
| Link |
NOC:Electromagnetic theory |
Lecture 8 - Cylindrical coordinate system |
| Link |
NOC:Electromagnetic theory |
Lecture 9 - Transformation and Electric field-II |
| Link |
NOC:Electromagnetic theory |
Lecture 10 - Electric Potential-I |
| Link |
NOC:Electromagnetic theory |
Lecture 11 - Spherical co-ordinate system and Electric potential-II |
| Link |
NOC:Electromagnetic theory |
Lecture 12 - Vector Analysis-III and Electric potential-III |
| Link |
NOC:Electromagnetic theory |
Lecture 13 - Gausss law and its application-I |
| Link |
NOC:Electromagnetic theory |
Lecture 14 - Gausss law and its application-II |
| Link |
NOC:Electromagnetic theory |
Lecture 15 - Divergence and Poissons and Laplaces equation |
| Link |
NOC:Electromagnetic theory |
Lecture 16 - Gausss law and its application -III |
| Link |
NOC:Electromagnetic theory |
Lecture 17 - Vector analysis III (curl and its significance) |
| Link |
NOC:Electromagnetic theory |
Lecture 18 - Conductor and dielectric-I |
| Link |
NOC:Electromagnetic theory |
Lecture 19 - Polarization - I |
| Link |
NOC:Electromagnetic theory |
Lecture 20 - Polarization - II |
| Link |
NOC:Electromagnetic theory |
Lecture 21 - Polarization - II (Continued...) |
| Link |
NOC:Electromagnetic theory |
Lecture 22 - Boundary condition |
| Link |
NOC:Electromagnetic theory |
Lecture 23 - Continuity equation and Conductors - III |
| Link |
NOC:Electromagnetic theory |
Lecture 24 - Conductors IV |
| Link |
NOC:Electromagnetic theory |
Lecture 25 - Conductors IV (Continued...) and Capacitor - I |
| Link |
NOC:Electromagnetic theory |
Lecture 26 - Capacitor - II |
| Link |
NOC:Electromagnetic theory |
Lecture 27 - Capacitor - II (Continued...) and Equipotential Surfaces |
| Link |
NOC:Electromagnetic theory |
Lecture 28 - Solution of Laplaces equation-I |
| Link |
NOC:Electromagnetic theory |
Lecture 29 - Solution of Laplaces equation-I I and method of images-I |
| Link |
NOC:Electromagnetic theory |
Lecture 30 - Method of images-II |
| Link |
NOC:Electromagnetic theory |
Lecture 31 - Solution of Laplaces equation-III |
| Link |
NOC:Electromagnetic theory |
Lecture 32 - Solution of Laplaces equation-IV |
| Link |
NOC:Electromagnetic theory |
Lecture 33 - Introduction of magnetic field |
| Link |
NOC:Electromagnetic theory |
Lecture 34 - Biot savart law and its application |
| Link |
NOC:Electromagnetic theory |
Lecture 35 - Biot savart lawandits application-II |
| Link |
NOC:Electromagnetic theory |
Lecture 36 - Magnetic vector potential |
| Link |
NOC:Electromagnetic theory |
Lecture 37 - Magnetic force, torque and dipole |
| Link |
NOC:Electromagnetic theory |
Lecture 38 - Magnetic force, torque and dipole (Continued...) |
| Link |
NOC:Electromagnetic theory |
Lecture 39 - Magnetic materials-I |
| Link |
NOC:Electromagnetic theory |
Lecture 40 - Magnetic materials-I (Continued...) and Magnetic moment |
| Link |
NOC:Electromagnetic theory |
Lecture 41 - Magnetic materials-I (Continued...) and Boundary condition for Magnetic fields |
| Link |
NOC:Electromagnetic theory |
Lecture 42 - Inductor and calculation of inductance for different shapes |
| Link |
NOC:Electromagnetic theory |
Lecture 43 - Inductor and calculation of inductance for different shapes (Continued...) |
| Link |
NOC:Electromagnetic theory |
Lecture 44 - Faradays law and its application-I |
| Link |
NOC:Electromagnetic theory |
Lecture 45 - Faradays law and its application-II |
| Link |
NOC:Electromagnetic theory |
Lecture 46 - Displacement current |
| Link |
NOC:Electromagnetic theory |
Lecture 47 - Maxwells equation |
| Link |
NOC:Electromagnetic theory |
Lecture 48 - Wave propagation |
| Link |
NOC:Electromagnetic theory |
Lecture 49 - Solution of Helmholtz equation |
| Link |
NOC:Electromagnetic theory |
Lecture 50 - Uniform plane waves |
| Link |
NOC:Electromagnetic theory |
Lecture 51 - Polarization and Poynting Vector |
| Link |
NOC:Electromagnetic theory |
Lecture 52 - Wave reflections (Normal incidence) |
| Link |
NOC:Electromagnetic theory |
Lecture 53 - Waves in imperfect dielectrics and Good conductors |
| Link |
NOC:Electromagnetic theory |
Lecture 54 - Skin depth/effect |
| Link |
NOC:Electromagnetic theory |
Lecture 55 - Oblique incidence of waves |
| Link |
NOC:Electromagnetic theory |
Lecture 56 - Oblique incidence of waves (Continued...) |
| Link |
NOC:Electromagnetic theory |
Lecture 57 - Transmission line |
| Link |
NOC:Electromagnetic theory |
Lecture 58 - Transmission line model |
| Link |
NOC:Electromagnetic theory |
Lecture 59 - Steady state sinusoidal response of T-line-I |
| Link |
NOC:Electromagnetic theory |
Lecture 60 - Steady state sinusoidal response of T-line-II |
| Link |
NOC:Electromagnetic theory |
Lecture 61 - Steady state sinusoidal response of T-line-IIand Smith chart |
| Link |
NOC:Electromagnetic theory |
Lecture 62 - Application of smith chart-I |
| Link |
NOC:Electromagnetic theory |
Lecture 63 - Application of smith chart-II |
| Link |
NOC:Electromagnetic theory |
Lecture 64 - Impedance matching |
| Link |
NOC:Electromagnetic theory |
Lecture 65 - Transients on Transmission line-I |
| Link |
NOC:Electromagnetic theory |
Lecture 66 - Transients on Transmission line-II |
| Link |
NOC:Electromagnetic theory |
Lecture 67 - Pulse on Transmission line |
| Link |
NOC:Electromagnetic theory |
Lecture 68 - Capacitive termination in Transmission line |
| Link |
NOC:Electromagnetic theory |
Lecture 69 - Waveguide |
| Link |
NOC:Electromagnetic theory |
Lecture 70 - Waveguide Analysis |
| Link |
NOC:Electromagnetic theory |
Lecture 71 - TM modes in Waveguide |
| Link |
NOC:Electromagnetic theory |
Lecture 72 - Rectangular waveguide: TM modes |
| Link |
NOC:Electromagnetic theory |
Lecture 73 - Rectangular waveguide: TE modes |
| Link |
NOC:Electromagnetic theory |
Lecture 74 - Waveguide: Wavelength, Impedance and power calculation |
| Link |
NOC:Electromagnetic theory |
Lecture 75 - Waveguide losses |
| Link |
NOC:Electromagnetic theory |
Lecture 76 - Dielectric Waveguide |
| Link |
NOC:Electromagnetic theory |
Lecture 77 - Dielectric Waveguide (Continued...) |
| Link |
NOC:Electromagnetic theory |
Lecture 78 - Radiation and Antenna |
| Link |
NOC:Electromagnetic theory |
Lecture 79 - Hertzian Dipole Antenna |
| Link |
NOC:Electromagnetic theory |
Lecture 80 - Hertzian Dipole Antenna (Continued...) |
| Link |
NOC:Electromagnetic theory |
Lecture 81 - Quasi-statistics-I |
| Link |
NOC:Electromagnetic theory |
Lecture 82 - Quasi-statistics-II |
| Link |
NOC:Electromagnetic theory |
Lecture 83 - Long wire Antenna |
| Link |
NOC:Electromagnetic theory |
Lecture 84 - Group velocity and Phase velocity |
| Link |
NOC:Electromagnetic theory |
Lecture 85 - Numerical solution of Laplace's equation |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 1 - Basics - Definition of Energy and Power of Signals |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 2 - Frequency Domain Representation and Introduction to Discrete Fourier Series |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 3 - Discrete Fourier Series Example and Parseval's Theorem for Periodic Signals |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 4 - Fourier Transform (FT), Inverse Fourier Transform (IFT) of Continuous Signals, Example of FT of Pulse and Sinc Function |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 5 - Modulation Property of Fourier Transform, Dirac Delta or Unit Impulse Function - Definition and Fourier Transform |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 6 - Duality Property of Fourier Transform and Introduction to Linear Time Invatiant (LTI) Systems |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 7 - Transmission of Signal through Linear Time Invariant (LTI) Systems and Cross- Correlation of Signals |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 8 - Auto-Correlation of Signal and Energy Spectral Density (ESD) |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 9 - Example for Auto-Correlation of Signal and Energy Spectral Density (ESD) |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 10 - Introduction to Amplitude Modulation (AM), Modulation Index, Envelope Distortion and Over Modulation |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 11 - Spectrum of Amplitude Modulated(AM) Signals and Introduction to Envelope Detection |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 12 - Envelope Detection for Amplitude Modulated (AM) Signals and Time Constant for Capacitor in Envelope Detector |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 13 - Power of Amplitude Modulated (AM) Signals and Power Efficiency of AM Signals |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 14 - Double Sideband (DSB) Suppressed Carrier (SC) Modulation, Spectrum of DSB-SC Signals and Coherent Demodulation |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 15 - Double Sideband(DSB) Suppressed Carrier (SC) Demodulation, Non-coherent demodulation, Impact of Carrier Phase Offset |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 16 - Carrier Phase Offset Example for Double Sideband (DSB) Suppressed Carrier (SC) Demodulation- Wireless Cellular Communication with User Mobility |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 17 - Phase Synchronization using Costas Receiver for Double Sideband (DSB) Suppressed Carrier (SC) Demodulation |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 18 - Introduction to Quadrature Carrier Multiplexing (QCM) and Demodulation of QCM Signals. |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 19 - Introduction to Single Sideband (SSB) Modulation |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 20 - Generation of Single Sideband (SSB) Modulation Signals through Frequency Discrimination |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 21 - Frequency Domain Description of Hilbert Transform Fourier Spectrum of the Hilbert Transformer |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 22 - Time Domain Description of Hilbert Transform Impulse Response of the Hilbert Transformer |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 23 - Phase Shifting Method for Generation of Single Sideband (SSB) Modulated Signals based on Hilbert Transform |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 24 - Complex Pre-Envelope and Complex Envelope of Passband Signals |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 25 - Complex Pre- Envelope and Complex Envelope of QCM (Quadrature Carrier Modulated) Signals |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 26 - Introduction to Vestigial Side Band(VSB) Modulation and Non- Ideal Filtering, Spectral Efficiency |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 27 - Properties of Vestigial Side Band Filter for Reconstruction of Message Signal without Distortion |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 28 - Introduction to Angle Modulation, Description of Phase Modulation (PM) and Frequency Modulation (FM) |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 29 - Frequency Modulation (FM) with Sinusoidal Modulation Signal and Pictorial Examples, Insights of PM and FM signals |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 30 - Indirect Method for Generation of FM Signals - Generation of Narrowband FM Signal |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 31 - Indirect Method for Generation of FM Signals - Generation of Wideband FM Signal through Frequency Multiplication |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 32 - Spectrum of Frequency Modulated (FM) Signals |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 33 - Bandwidth of Frequency Modulated (FM) Signals - Carson's Rule |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 34 - Demodulation of Frequency Modulated (FM) Signals, Condition of Envelope Detection |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 35 - Analog to Digital Conversion of Signals and Introduction to Sampling |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 36 - Spectrum of Sampled Signal, Aliasing and Nyquist Sampling Theorem |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 37 - Ideal Impluse Train Sampling, Reconstruction of Original Signal from Samples, Sinc Interpolation |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 38 - Introduction to Pulse Amplitude Modulation (PAM), Sample and Hold, Flat Top Sampling |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 39 - Pulse Amplitude Modulation (PAM), Spectrum of PAM Signal , Reconstruction of Original Signal from PAM Signal, Equalization |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 40 - Introduction to Quantization, Uniform Quantizer, Mid- Tread Quantizer |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 41 - Quantization, Mid- Rise Quantizer, PDF and Power of Quantization Noise, Quantization Noise Power versus Quantizer Resolution |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 42 - Introduction to Lloyd- Max Quantization Algorithm, Optimal Quantizer Design |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 43 - Lloyd- Max Quantization Algorithm, Iterative Computation of Optimal Quantization Levels and Intervals |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 44 - Companding for Non- Uniform Quantization, Mu-law Compressor, A- Law Compressor |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 45 - Introduction to Delta Modulation, One-bit Quantizer |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 46 - Signal Reconstruction in Delta Modulation, Schematic Diagrams, Slope Overload Distortion and Granular Noise |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 47 - Differential Pulse Coded Modulation (DPCM), DPCM Signal Reconstruction and Schematic Diagram |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 48 - Frequency Mixing and Translation in Communication Systems, Heterodyne and Super Heterodyne Receivers |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 49 - Frequency Translation and Super Heterodyne Receivers, Problem of Image Frequency |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 50 - Frequency Division Multiplexing (FDM), Carrier Spacing in FDM |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 51 - Time Division Multiplexing (TDM), Operation of TDM, Sample Spacing in TDM |
| Link |
NOC:Principles of Communication - Part 1 |
Lecture 52 - Bandwidth Requirements for Time Division Multiplexing (TDM), The T1 TDM System : A Case Study |
| Link |
NOC:An Introduction to Coding Theory |
Lecture 1 - Introduction to Error Control Coding - I |
| Link |
NOC:An Introduction to Coding Theory |
Lecture 2 - Introduction to Error Control Coding - II |
| Link |
NOC:An Introduction to Coding Theory |
Lecture 3 - Introduction to Error Control Coding - III |
| Link |
NOC:An Introduction to Coding Theory |
Lecture 4 - Introduction to Linear Block Codes, Generator Matrix and Parity Check Matrix |
| Link |
NOC:An Introduction to Coding Theory |
Lecture 5 - Syndrome, Error Correction and Error Detection |
| Link |
NOC:An Introduction to Coding Theory |
Lecture 6 - Problem Solving Session - I |
| Link |
NOC:An Introduction to Coding Theory |
Lecture 7 - Decoding of Linear Block Codes |
| Link |
NOC:An Introduction to Coding Theory |
Lecture 8 - Distance Properties of Linear Block Codes - I |
| Link |
NOC:An Introduction to Coding Theory |
Lecture 9 - Distance Properties of Linear Block Codes - II |
| Link |
NOC:An Introduction to Coding Theory |
Lecture 10 - Problem Solving Session - II |
| Link |
NOC:An Introduction to Coding Theory |
Lecture 11 - Some Simple Linear Block Codes - I |
| Link |
NOC:An Introduction to Coding Theory |
Lecture 12 - Some Simple Linear Block Codes - II: Reed Muller Codes |
| Link |
NOC:An Introduction to Coding Theory |
Lecture 13 - Bounds on the Size of a Code |
| Link |
NOC:An Introduction to Coding Theory |
Lecture 14 - Problem Solving Session - III |
| Link |
NOC:An Introduction to Coding Theory |
Lecture 15 - Introduction to Convolutional Codes - I: Encoding |
| Link |
NOC:An Introduction to Coding Theory |
Lecture 16 - Introduction to Convolutional Codes - II: State Diagram, Trellis Diagram |
| Link |
NOC:An Introduction to Coding Theory |
Lecture 17 - Convolutional Codes: Classification, Realization |
| Link |
NOC:An Introduction to Coding Theory |
Lecture 18 - Convolutional Codes:Distance Properties |
| Link |
NOC:An Introduction to Coding Theory |
Lecture 19 - Decoding of Convolutional Codes - I: Viterbi Algorithm |
| Link |
NOC:An Introduction to Coding Theory |
Lecture 20 - Decoding of Convolutional Codes - II: BCJR Algorithm |
| Link |
NOC:An Introduction to Coding Theory |
Lecture 21 - Problem solving session - IV |
| Link |
NOC:An Introduction to Coding Theory |
Lecture 22 - Problem solving session - V |
| Link |
NOC:An Introduction to Coding Theory |
Lecture 23 - Performance Bounds for Convolutional Codes |
| Link |
NOC:An Introduction to Coding Theory |
Lecture 24 - Low Density Parity Check Codes |
| Link |
NOC:An Introduction to Coding Theory |
Lecture 25 - Decoding of Low Density Parity Check Codes - I |
| Link |
NOC:An Introduction to Coding Theory |
Lecture 26 - Decoding of Low Density Parity Check Codes - II: Belief Propagation Algorithm |
| Link |
NOC:An Introduction to Coding Theory |
Lecture 27 - Turbo Codes |
| Link |
NOC:An Introduction to Coding Theory |
Lecture 28 - Turbo Decoding |
| Link |
NOC:An Introduction to Coding Theory |
Lecture 29 - Problem Solving Sessions - VI |
| Link |
NOC:An Introduction to Coding Theory |
Lecture 30 - Distance Properties of Turbo Codes |
| Link |
NOC:An Introduction to Coding Theory |
Lecture 31 - Convergence of Turbo Codes |
| Link |
NOC:An Introduction to Coding Theory |
Lecture 32 - Automatic Repeat reQuest (ARQ) Schemes |
| Link |
NOC:An Introduction to Coding Theory |
Lecture 33 - Applications of Linear Codes |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 1 - Introduction to Digital Communication Systems |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 2 - Spectrum of Transmitted Digital Communication Signal and Wide Sense Stationarity |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 3 - Spectrum of Transmitted Digital Communication Signal, Autocorrelation Function and Power Spectral Density |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 4 - Spectrum of Transmitted Digital Communication Signal, Relation to Energy Spectral Density and Introduction to AWGN Channel |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 5 - Additive White Gaussian Noise (AWGN) Properties, Gaussian Noise and White Noise |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 6 - Structure of Digital Communication Receiver, Receiver Filter and Signal-to-Noise Power Ratio (SNR) |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 7 - Digital Communication Receiver, Noise Properties and Output Noise Power |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 8 - Digital Communication Receiver, Optimal SNR and Matched Filter |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 9 - Probability of Error in Digital Communication and Probability Density Functions of Output |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 10 - Probability of Error in Digital Communication, Optimal Decison Rule and Gaussian Q function |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 11 - Introduction to Binary Phase Shift Keying (BPSK) Modulation, Optimal Decision Rule and Probability of Bit-Error or Bit-Error Rate (BER) |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 12 - Introduction to Amplitude Shift Keying (ASK) Modulation |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 13 - Optimal Decision Rule for Amplitude Shift Keying (ASK), Bit Error Rate (BER) and Comparison with Binary Phase Shift Keying (BPSK) Modulation |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 14 - Introduction to Signal Space Concept and Orthonormal Basis Signals |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 15 - Introduction to Frequency Shift Keying (FSK) |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 16 - Optimal Decision Rule for FSK, Bit Error Rate (BER) and Comparison with BPSK, ASK |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 17 - Introduction to Quadrature Phase Shift Keying (QPSK) |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 18 - Waveforms of Quadrature Phase Shift Keying (QPSK) |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 19 - Matched Filtering, Bit Error Rate and Symbol Error Rate for Quadrature Phase Shift Keying (QPSK) |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 20 - Introduction to M-ary PAM (Pulse Amplitude Modulation), Average Symbol Power and Decision rules |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 21 - M-ary PAM (Pulse Amplitude Modulation) -Part-II, Optimal Decision Rule and Probability of Error |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 22 - M-ary QAM (Quadrature Amplitude Modulation) Part-I, Introduction, Transmitted Waveform and Average Symbol Energy |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 23 - M-ary QAM (Quadrature Amplitude Modulation) - Part-II, Optimal Decision Rule, Probability of Error and Contellation Diagram |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 24 - M-ary PSK (Phase Shift Keying) Part-I, Introduction , Transmitted Waveform and Constellation Diagram |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 25 - M-ary PSK (Phase Shift Keying) - Part-II, Optimal Decision Rule, Nearest Neighbor Criterion and Approximate Probability of Error |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 26 - Introduction to Information Theory, Relevance of Information Theory and Characterization of Information |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 27 - Definition of Entropy, Average of Information / Uncertainity of source and Properties of Entropy |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 28 - Entropy Example- Binary Source Maximum and Minimum Entropy of Binary Source |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 29 - Maximum Entropy of Source with M-ary Alphabet, Concave/Convex Functions and Jensens Inequality |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 30 - Joint Entropy , Definition of Joint Entropy of Two Sources and Simple Examples for Joint Entropy Computation |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 31 - Properties of Joint Entropy and Relation between Joint Entropy and Marginal Entropies |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 32 - Conditional Entropy, Example of Conditional Entropy and Properties of Conditional Entropy |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 33 - Mutual Information, Diagrammatic Representation and Properties of Mutual Information |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 34 - Simple Example of Mutual Information and Practical Example of Mutual Information-Binary Symmetric Channel |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 35 - Channel Capacity, Implications of Channel Capacity, Claude E. Shannon- Father of Information Theory and Example of Capacity of Binary Symmetric Channel |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 36 - Differential Entropy and Example for Uniform Probability Density function |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 37 - Differential Entropy of Gaussian Source and Insights |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 38 - Joint Conditional/ Differential Entropies and Mutual Information |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 39 - Capacity of Gaussian channel - Part I |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 40 - Capacity of Gaussian Channel - Part-II, Practical Implications and Maximum rate in bits\sec |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 41 - Introduction to Source Coding and Data Compression, Variable Length codes and Unique Decodability |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 42 - Uniquely Decodable Codes, Prefix-free code, Instantaneous Code and Average Code length |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 43 - Binary Tree Representation of Code, Example and Kraft Inequality |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 44 - Lower Bound on Average Code Length and Kullback-Leibler Divergence |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 45 - Optimal Code length, Constrained Optimization and Morse Code Example |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 46 - Approaching Lower Bound on Average code length and Block Coding |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 47 - Huffman Code, Algorithm, Example and Average Code Length |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 48 - Introduction to channel coding, Rate of Code, Repetition Code and Hamming Distance |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 49 - Introduction to Convolutional Codes, Binary Field Arithmetic and Linear Codes |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 50 - Example of Convolutional Code Output and Convolution Operation for Code generation |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 51 - Matrix Representation of Convolutional Codes, Generator Matrix, Transform Domain Representation and Shift Register Architecture |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 52 - State Diagram Representation of Convolutional Code, State transitions and Example of Code Generation using State transitions |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 53 - Trellis Representation of Convolutional Code and Valid Code Words |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 54 - Decoding of the Convolutional Code, Minimum Hamming distance and Maximum Likelihood Codeword Estimate |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 55 - Principle of Decoding of Convolutional code |
| Link |
NOC:Principles of Communication Systems - Part II |
Lecture 56 - Viterbi Decoder for Maximum Likelihood Decoding of Convolutional Code Using Trellis Representation, Branch Metric Calculation, State Metric Calculation and Example |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 1 - Introduction to Applied Elecromagnetics |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 2 - Introduction to Transmission lines |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 3 - Sinusoidal waves on Transmission lines |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 4 - Terminating T-lines: Reflection and Transmission coefficient |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 5 - Circuit parameters of a T-line |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 6 - Lossy Transmission lines and primary constants |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 7 - When to apply T-line Theory? |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 8 - Standing Waves on T-lines |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 9 - Lumped equivalent circuits of T-lines |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 10 - Impedance transformation and power flow on T-lines |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 11 - Graphical aid: Smith Chart Derivation |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 12 - Smith chart applications |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 13 - Further applications of Smith chart - Part 1 |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 14 - Further applications of Smith chart - Part 2 |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 15 - Impedance matching techniques - Part 1 |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 16 - Impedance matching techniques - Part 2 |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 17 - Impedance matching techniques - Part 3 |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 18 - T-lines in time domain: Lattice diagrams |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 19 - Further examples of use of lattice diagrams |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 20 - High-speed digital signal propagation on T-lines |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 21 - Transient analysis with reactive termination and Time-domain reflectometry |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 22 - Fault detection using TDR |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 23 - Why Electromagnetics? |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 24 - Rectangular coordinate systems |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 25 - Cylindrical coordinate systems |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 26 - Review of vector fields and Gradient |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 27 - Divergence, Curl, and Laplacian operations |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 28 - Towards Maxwells equations - Part 1 |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 29 - Towards Maxwells equations - Part 2 |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 30 - Faradays law |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 31 - Completing Maxwells equations and Boundary conditions |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 32 - Boundary conditions for Electromagnetic fields |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 33 - Electrostatics-I: Laplace and Poissons equations |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 34 - Electrostatics-II: Solving Laplaces equation in 1D |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 35 - Electrostatics-III: Solving Laplaces equation in 2D |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 36 - Electrostatics-IV: Finite Difference method for solving Laplaces equation |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 37 - Magnetostatic fields-I: Biot-Savart Law |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 38 - Magnetostatic fields-II: Calculation of magnetic fields |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 39 - Inductance calculations |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 40 - From Maxwells equations to uniform plane waves |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 41 - Plane wave propagation in lossless dielectric media |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 42 - Polarization of plane waves |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 43 - Can an Ideal capacitor exist? |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 44 - Skin effect in conductors |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 45 - Skin effect in round wires |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 46 - Finite difference method |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 47 - Reflection of uniform plane waves |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 48 - Application: Reflection from multiple media and anti-reflection coating. |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 49 - Oblique incidence of plane waves |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 50 - Total internal reflection |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 51 - Application: Matrix analysis of reflection from multiple boundaries |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 52 - Application: Fabry-Perot cavity and Multi-layer films |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 53 - Introduction to waveguides |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 54 - Rectangular waveguides |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 55 - Attenuation and Dispersion in rectangular waveguides |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 56 - Planar optical waveguides |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 57 - Application: Optical Fibers |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 58 - Application: WDM Optical Components |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 59 - Mach-Zehnder Modulator |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 60 - Wave Propagation in Anisotropic Medium |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 61 - Wave Propagation in Ferrites |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 62 - Magnetic Vector Potential - Part 1 |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 63 - Magnetic Vector Potential - Part 2 |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 64 - Fields of a Dipole Antenna |
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NOC:Applied Engineering Electromagnetics |
Lecture 65 - Antenna Parameters and Long wire Antenna |
| Link |
NOC:Applied Engineering Electromagnetics |
Lecture 66 - Friis Transmission Formula |
| Link |
NOC:Principles of Signals and Systems |
Lecture 1 - Principles of Signals and Systems- Introduction to Signals and Systems, Signal Classification - Continuous and Discrete Time Signals |
| Link |
NOC:Principles of Signals and Systems |
Lecture 2 - Analog and Digital Signals |
| Link |
NOC:Principles of Signals and Systems |
Lecture 3 - Energy and Power Signals |
| Link |
NOC:Principles of Signals and Systems |
Lecture 4 - Real Exponential Signals |
| Link |
NOC:Principles of Signals and Systems |
Lecture 5 - Memory/Memory-less and Causal/Non-Causal Systems |
| Link |
NOC:Principles of Signals and Systems |
Lecture 6 - Properties of Linear Systems |
| Link |
NOC:Principles of Signals and Systems |
Lecture 7 - Example Problems - 1 |
| Link |
NOC:Principles of Signals and Systems |
Lecture 8 - Example Problems - 2 |
| Link |
NOC:Principles of Signals and Systems |
Lecture 9 - Example Problems - 3 |
| Link |
NOC:Principles of Signals and Systems |
Lecture 10 - Properties and Analysis of LTI Systems - I |
| Link |
NOC:Principles of Signals and Systems |
Lecture 11 - Properties and Analysis of LTI Systems - II |
| Link |
NOC:Principles of Signals and Systems |
Lecture 12 - Properties and Analysis of LTI Systems - III |
| Link |
NOC:Principles of Signals and Systems |
Lecture 13 - Properties of Discrete Time LTI Systems |
| Link |
NOC:Principles of Signals and Systems |
Lecture 14 - Example Problems LTI Systems - I |
| Link |
NOC:Principles of Signals and Systems |
Lecture 15 - Example Problems LTI Systems - II |
| Link |
NOC:Principles of Signals and Systems |
Lecture 16 - Example Problems DT-LTI Systems |
| Link |
NOC:Principles of Signals and Systems |
Lecture 17 - Laplace Transform |
| Link |
NOC:Principles of Signals and Systems |
Lecture 18 - Laplace Transform Properties - I |
| Link |
NOC:Principles of Signals and Systems |
Lecture 19 - Laplace Transform Properties - II |
| Link |
NOC:Principles of Signals and Systems |
Lecture 20 - Laplace Transform of LTI Systems |
| Link |
NOC:Principles of Signals and Systems |
Lecture 21 - Laplace Transform Example Problems - I |
| Link |
NOC:Principles of Signals and Systems |
Lecture 22 - Laplace Transform Example Problems - II |
| Link |
NOC:Principles of Signals and Systems |
Lecture 23 - Laplace Transform of RL, RC Circuit |
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NOC:Principles of Signals and Systems |
Lecture 24 - Z-Transform |
| Link |
NOC:Principles of Signals and Systems |
Lecture 25 - Z-Transform Properties - I |
| Link |
NOC:Principles of Signals and Systems |
Lecture 26 - Z-Transform Properties - II |
| Link |
NOC:Principles of Signals and Systems |
Lecture 27 - Z-Transform of LTI Systems |
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NOC:Principles of Signals and Systems |
Lecture 28 - Z-Transform Examples - I |
| Link |
NOC:Principles of Signals and Systems |
Lecture 29 - Z-Transform Examples - II |
| Link |
NOC:Principles of Signals and Systems |
Lecture 30 - Z-Transform Examples - III |
| Link |
NOC:Principles of Signals and Systems |
Lecture 31 - Z-Transform Examples - IV |
| Link |
NOC:Principles of Signals and Systems |
Lecture 32 - Inverse Z-Transform |
| Link |
NOC:Principles of Signals and Systems |
Lecture 33 - Fourier Analysis Introduction |
| Link |
NOC:Principles of Signals and Systems |
Lecture 34 - Complex Exponential and Trigonometric FS |
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NOC:Principles of Signals and Systems |
Lecture 35 - Conditions for Existence of FS |
| Link |
NOC:Principles of Signals and Systems |
Lecture 36 - Fourier Transform (FT) Introduction |
| Link |
NOC:Principles of Signals and Systems |
Lecture 37 - Properties of Fourier Transform - I |
| Link |
NOC:Principles of Signals and Systems |
Lecture 38 - Properties of Fourier Transform - II |
| Link |
NOC:Principles of Signals and Systems |
Lecture 39 - Fourier Transform - Parseval’s Relation |
| Link |
NOC:Principles of Signals and Systems |
Lecture 40 - Fourier Transform of LTI Systems |
| Link |
NOC:Principles of Signals and Systems |
Lecture 41 - FT- Ideal and Non-Ideal Filters |
| Link |
NOC:Principles of Signals and Systems |
Lecture 42 - Fourier Analysis Examples - I |
| Link |
NOC:Principles of Signals and Systems |
Lecture 43 - Fourier Analysis Examples - II |
| Link |
NOC:Principles of Signals and Systems |
Lecture 44 - Fourier Analysis Examples - III |
| Link |
NOC:Principles of Signals and Systems |
Lecture 45 - Fourier Analysis Examples - IV |
| Link |
NOC:Principles of Signals and Systems |
Lecture 46 - Fourier Analysis Examples - V |
| Link |
NOC:Principles of Signals and Systems |
Lecture 47 - Fourier Analysis Examples - VI |
| Link |
NOC:Principles of Signals and Systems |
Lecture 48 - Fourier Analysis Bode Plot - I |
| Link |
NOC:Principles of Signals and Systems |
Lecture 49 - Fourier Analysis Bode Plot - II |
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NOC:Principles of Signals and Systems |
Lecture 50 - Fourier Transform Examples: Filtering - Ideal Low Pass Filter |
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NOC:Principles of Signals and Systems |
Lecture 51 - Fourier Transform Problems: Unit Step Response of RC Circuit, Sampling of Continuous Signal |
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NOC:Principles of Signals and Systems |
Lecture 52 - Sampling: Spectrum of Sampled Signal, Nyquist Criterion |
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NOC:Principles of Signals and Systems |
Lecture 53 - Sampling: Reconstruction from Sampled Signal |
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NOC:Principles of Signals and Systems |
Lecture 54 - Fourier Analysis of Discrete Time Signals and Systems - Introduction |
| Link |
NOC:Principles of Signals and Systems |
Lecture 55 - Fourier Analysis of Discrete Time Signals - Duality, Parseval’s Theorem |
| Link |
NOC:Principles of Signals and Systems |
Lecture 56 - Discrete Time Fourier Transform: Definition, Inverse DTFT, Convergence, Relation between DTFT and z-Transform, DTFT of Common Signals |
| Link |
NOC:Principles of Signals and Systems |
Lecture 57 - Discrete Time Fourier Transform: Properties of DTFT - Linearity, Time Shifting, Frequency Shifting, Conjugation, Time-Reversal, Duality |
| Link |
NOC:Principles of Signals and Systems |
Lecture 58 - Discrete Time Fourier Transform: Properties of DTFT - Differentiation in Frequency, Difference in Time, Convolution, Multiplication, Parseval’s Relation |
| Link |
NOC:Principles of Signals and Systems |
Lecture 59 - DTFT: Discrete Time LTI Systems - LTI Systems Characterized by Difference Equations |
| Link |
NOC:Principles of Signals and Systems |
Lecture 60 - Discrete Fourier Transform - Definition, Inverse DFT, Relation between DFT and DFS, Relation between DFT and DTFT, Properties - Linearity, Time Shifting |
| Link |
NOC:Principles of Signals and Systems |
Lecture 61 - Discrete Fourier Transform: Properties - Conjugation, Frequency Shift, Duality, Circular Convolution, Multiplication, Parseval’s Relation, Example Problems for Fourier Analysis of Discrete Time Signals |
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NOC:Principles of Signals and Systems |
Lecture 62 - Example Problems: DFS Analysis of Discrete Time Signals, Problems on DTFT |
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NOC:Principles of Signals and Systems |
Lecture 63 - Example Problems: DTFT of Cosine, Unit Step Signals |
| Link |
NOC:Principles of Signals and Systems |
Lecture 64 - DTFT Example Problems - III |
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NOC:Principles of Signals and Systems |
Lecture 65 - DTFT Example Problems - IV |
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NOC:Principles of Signals and Systems |
Lecture 66 - DTFT Example Problems - V |
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NOC:Principles of Signals and Systems |
Lecture 67 - DFT Example Problems - I |
| Link |
NOC:Principles of Signals and Systems |
Lecture 68 - Example Problems: DFT, IDFT in Matrix form |
| Link |
NOC:Principles of Signals and Systems |
Lecture 69 - Group/Phase Delay - Part I |
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NOC:Principles of Signals and Systems |
Lecture 70 - Group/Phase Delay - Part II |
| Link |
NOC:Principles of Signals and Systems |
Lecture 71 - IIR Filter Structures: DF-I, DF-II |
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NOC:Principles of Signals and Systems |
Lecture 72 - IIR Filter Structures: Transpose Form |
| Link |
NOC:Principles of Signals and Systems |
Lecture 73 - IIR Filter Structures: Example |
| Link |
NOC:Principles of Signals and Systems |
Lecture 74 - IIR Filter Structures: Cascade Form |
| Link |
NOC:Principles of Signals and Systems |
Lecture 75 - IIR Filter: Parallel Form-I and II |
| Link |
NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 1 - Vectors and Matrices - Linear Independence and Rank |
| Link |
NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 2 - Eigenvectors and Eigenvalues of Matrices and their Properties |
| Link |
NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 3 - Positive Semidefinite (PSD) and Postive Definite (PD) Matrices and their Properties |
| Link |
NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 4 - Inner Product Space and it's Properties: Linearity, Symmetry and Positive Semi-definite |
| Link |
NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 5 - Inner Product Space and it's Properties: Cauchy Schwarz Inequality |
| Link |
NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 6 - Properties of Norm, Gaussian Elimination and Echleon form of matrix |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 7 - Gram Schmidt Orthogonalization Procedure |
| Link |
NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 8 - Null Space and Trace of Matrices |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 9 - Eigenvalue Decomposition of Hermitian Matrices and Properties |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 10 - Matrix Inversion Lemma (Woodbury identity) |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 11 - Introduction to Convex Sets and Properties |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 12 - Affine Set Examples and Application |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 13 - Norm Ball and its Practical Applications |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 14 - Ellipsoid and its Practical Applications |
| Link |
NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 15 - Norm Cone,Polyhedron and its Applications |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 16 - Applications: Cooperative Cellular Transmission |
| Link |
NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 17 - Positive Semi Definite Cone And Positive Semi Definite (PSD) Matrices |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 18 - Introduction to Affine functions and examples |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 19 - norm balls and Matrix properties:Trace,Determinant |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 20 - Inverse of a Positive Definite Matrix |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 21 - Example Problems: Property of Norms,Problems on Convex Sets |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 22 - Problems on Convex Sets (Continued...) |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 23 - Introduction to Convex and Concave Functions |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 24 - Properties of Convex Functions with examples |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 25 - Test for Convexity: Positive Semidefinite Hessian Matrix |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 26 - Application: MIMO Receiver Design as a Least Squares Problem |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 27 - Jensen's Inequality and Practical Application |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 28 - Jensen's Inequality application |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 29 - Properties of Convex Functions |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 30 - Conjugate Function and Examples to prove Convexity of various Functions |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 31 - Examples on Operations Preserving Convexity |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 32 - Examples on Test for Convexity, Quasi-Convexity |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 33 - Examples on Convex Functions |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 34 - Practical Application: Beamforming in Multi-antenna Wireless Communication |
| Link |
NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 35 - Practical Application: Maximal Ratio Combiner for Wireless Systems |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 36 - Practical Application: Multi-antenna Beamforming with Interfering User |
| Link |
NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 37 - Practical Application: Zero-Forcing (ZF) Beamforming with Interfering User |
| Link |
NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 38 - Practical Application: Robust Beamforming With Channel Uncertainity for Wireless Systems |
| Link |
NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 39 - Practical Application: Robust Beamformer Design for Wireless Systems |
| Link |
NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 40 - Practical Application: Detailed Solution for Robust Beamformer Computation in Wireless Systems Text |
| Link |
NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 41 - Linear modeling and Approximation Problems: Least Squares |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 42 - Geometric Intuition for Least Squares |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 43 - Practical Application: Multi antenna channel estimation |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 44 - Practical Application:Image deblurring |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 45 - Least Norm Signal Estimation |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 46 - Regularization: Least Squares + Least Norm |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 47 - Convex Optimization Problem representation: Canonical form, Epigraph form |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 48 - Linear Program Practical Application: Base Station Co-operation |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 49 - Stochastic Linear Program,Gaussian Uncertainty |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 50 - Practical Application: Multiple Input Multiple Output (MIMO) Beamforming |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 51 - Practical Application: Multiple Input Multiple Output (MIMO) Beamformer Design |
| Link |
NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 52 - Practical Application: Co-operative Communication, Overview and various Protocols used |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 53 - Practical Application: Probability of Error Computation for Co-operative Communication |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 54 - Practical Application:Optimal power allocation factor determination for Co-operative Communication |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 55 - Practical Application: Compressive Sensing |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 56 - Practical Application |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 57 - Practical Application- Orthogonal Matching Pursuit (OMP) algorithm for Compressive Sensing |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 58 - Example Problem: Orthogonal Matching Pursuit (OMP) algorithm |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 59 - Practical Application : L1 norm minimization and regularization approach for Compressive Sensing Optimization problem |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 60 - Practical Application of Machine Learning and Artificial Intelligence:Linear Classification, Overview and Motivation |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 61 - Practical Application: Linear Classifier (Support Vector Machine) Design |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 62 - Practical Application: Approximate Classifier Design |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 63 - Concept of Duality |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 64 - Relation between optimal value of Primal and Dual Problems, concepts of Duality gap and Strong Duality |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 65 - Example problem on Strong Duality |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 66 - Karush-Kuhn-Tucker (KKT) conditions |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 67 - Application of KKT condition:Optimal MIMO power allocation (Waterfilling) |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 68 - Optimal MIMO Power allocation (Waterfilling)-II |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 69 - Example problem on Optimal MIMO Power allocation (Waterfilling) |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 70 - Linear objective with box constraints, Linear Programming |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 71 - Example Problems II |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 72 - Examples on Quadratic Optimization |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 73 - Examples on Duality: Dual Norm, Dual of Linear Program (LP) |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 74 - Examples on Duality: Min-Max problem, Analytic Centering |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 75 - Semi Definite Program (SDP) and its application:MIMO symbol vector decoding |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 76 - Application:SDP for MIMO Maximum Likelihood (ML) Detection |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 77 - Introduction to big Data: Online Recommender System (Netflix) |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 78 - Matrix Completion Problem in Big Data: Netflix-I |
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NOC:Applied Optimization for Wireless, Machine Learning, Big Data |
Lecture 79 - Matrix Completion Problem in Big Data: Netflix-II |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 1 - Overview of fiber-optic communication systems |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 2 - Review of Maxwell’s equations |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 3 - Uniform plane waves (UWPs) in free-space |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 4 - Properties of UWPs (propagation constant, polarization, and Poynting vector) |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 5 - Boundary conditions and reflection from a PEC |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 6 - Obliquely incident waves-I (TE and TM waves, Snell’s laws) |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 7 - Obliquely incident waves-II (Reflection and transmission coefficients, Brewster angle) |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 8 - Total internal reflection |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 9 - Ray theory of dielectric slab waveguides |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 10 - Transverse resonance condition for slab waveguides |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 11 - Introduction to optical fibers |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 12 - Ray theory of light propagation in optical fibers |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 13 - Concept of waveguide modes |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 14 - Systematic procedure to obtain modes of a waveguide |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 15 - Systematic analysis of parallel plate metallic waveguide |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 16 - Systematic analysis of dielectric slab waveguides |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 17 - Further discussion on slab waveguides |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 18 - Modal analysis of step index optical fiber |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 19 - Properties of modes of step-index optical fiber - I |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 20 - Properties of modes of step-index optical fiber - II |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 21 - Linearly polarized modes |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 22 - Attenuation and power loss in fibers |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 23 - Introduction to dispersion in fibers |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 24 - Mathematical modelling of dispersion: Transfer function approach |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 25 - Pulse propagation equation and its solution |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 26 - Pre-chirped pulses and Inter and Intra-modal dispersion in optical fibers |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 27 - Beam Propagation Method |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 28 - Polarization Effects on Pulse Propagation |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 29 - Modes in Optical Fibres and Pulse Propagation in Optical Fibres |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 30 - Graded Index Fibers |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 31 - Light Sources, Detectors and Amplifiers |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 32 - Basics of Lasers-I (Structure of Lasers, Process of Photon Emission) |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 33 - Basics of Lasers-II (Einstein's Theory of Radiation) |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 34 - Basics of Lasers-III (Population Inversion and Rate Equation for Lasers) |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 35 - Basic Properties of Semiconductor Laser-I (Energy Gap, Intrinsic and Extrinsic Semiconductors) |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 36 - Basic Properties of Semiconductor Laser-II (Fermi Level) |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 37 - Optical Properties of Semiconductors-I (Direct Bandgap and Indirect Bandgap, Density of States) |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 38 - Optical Properties of Semiconductors-II (Gain, Absorption, Recombination rate) Homojunction Lasers |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 39 - Double Heterostructure Lasers, Introduction to Quantum Well Lasers |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 40 - Semiconductor Optical Amplifier |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 41 - Erbium-doped fiber amplifier |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 42 - Photodetectors |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 43 - Noise in Photodetectors |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 44 - Introduction to WDM components |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 45 - Couplers, Circulators, FRM and Filters |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 46 - Filter, MUX/DEMUX, Diffraction grating (FBG and Long period grating) |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 47 - Optical Modulators-I (Current modulation) |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 48 - Optical Modulators-II (Electro-optic modulators) |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 49 - Review of Communication Concepts-I (Deterministic and Random Signals, Baseband and Passband Signals) |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 50 - Review of Communication Concepts-II (Signal and vectors, Signal energy, Orthonormal basis functions) |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 51 - Intensity modulation/ Direct Detection |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 52 - BER discussion for OOK systems |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 53 - Higher order modulation and Coherent Receiver |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 54 - Coherent receiver for BPSK systems and BER calculation |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 55 - Recovering Polarization |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 56 - DSP algorithms for Chromatic dispersion mitigation |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 57 - DSP algorithms for Carrier phase estimation - I |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 58 - DSP algorithms for Carrier phase estimation - II |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 59 - Nonlinear effects in fiber |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 60 - Four wave mixing, Loss measurement, Dispersion measurement |
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NOC:Fiber-Optic Communication Systems and Techniques |
Lecture 61 - Lab Demonstration (Laser diode characteristics, Loss measurement, Optical Intensity Modulation) |
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NOC:Electromagnetic Waves in Guided and Wireless Media |
Lecture 1 - Introduction and Types of Transmission Lines |
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NOC:Electromagnetic Waves in Guided and Wireless Media |
Lecture 2 - Distributed Circuit Model of Uniform Transmission Line |
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NOC:Electromagnetic Waves in Guided and Wireless Media |
Lecture 3 - Voltage and Current Equation of the Transmission line |
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NOC:Electromagnetic Waves in Guided and Wireless Media |
Lecture 4 - Sinusoidal Excitation of Transmission Line (Propagation constant, Characteristic Impedance) |
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NOC:Electromagnetic Waves in Guided and Wireless Media |
Lecture 5 - Properties of Transmission Line (Reflection Coefficient, Input Impedance, Standing Wave Ratio) |
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NOC:Electromagnetic Waves in Guided and Wireless Media |
Lecture 6 - Power Calculations and Introduction to Smith Chart |
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NOC:Electromagnetic Waves in Guided and Wireless Media |
Lecture 7 - Smith Chart |
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NOC:Electromagnetic Waves in Guided and Wireless Media |
Lecture 8 - Additional Applications of Smith Chart |
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NOC:Electromagnetic Waves in Guided and Wireless Media |
Lecture 9 - Time domain Analysis of Transmission Line - I |
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NOC:Electromagnetic Waves in Guided and Wireless Media |
Lecture 10 - Time domain Analysis of Transmission Line - II |
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NOC:Electromagnetic Waves in Guided and Wireless Media |
Lecture 11 - Usage of Lattice Diagrams |
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NOC:Electromagnetic Waves in Guided and Wireless Media |
Lecture 12 - TDR analysis of Transmission Lines |
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NOC:Electromagnetic Waves in Guided and Wireless Media |
Lecture 13 - Introduction to Propagation of Electromagnetic Waves |
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NOC:Electromagnetic Waves in Guided and Wireless Media |
Lecture 14 - Uniform Plane Waves - I |
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NOC:Electromagnetic Waves in Guided and Wireless Media |
Lecture 15 - Uniform Plane Waves - II |
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NOC:Electromagnetic Waves in Guided and Wireless Media |
Lecture 16 - Poynting Vector, Average Power, Polarization |
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NOC:Electromagnetic Waves in Guided and Wireless Media |
Lecture 17 - Uniform Plane Waves in Lossy Medium |
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NOC:Electromagnetic Waves in Guided and Wireless Media |
Lecture 18 - Normal Incidence of Plane Waves |
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NOC:Electromagnetic Waves in Guided and Wireless Media |
Lecture 19 - Oblique Incidence of Plane Waves - I |
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NOC:Electromagnetic Waves in Guided and Wireless Media |
Lecture 20 - Oblique Incidence of Plane Waves - II |
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NOC:Electromagnetic Waves in Guided and Wireless Media |
Lecture 21 - Total Internal Reflection |
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NOC:Electromagnetic Waves in Guided and Wireless Media |
Lecture 22 - Slab Waveguides |
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NOC:Electromagnetic Waves in Guided and Wireless Media |
Lecture 23 - Optical Fibers |
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NOC:Electromagnetic Waves in Guided and Wireless Media |
Lecture 24 - Parallel Plate Waveguides |
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NOC:Electromagnetic Waves in Guided and Wireless Media |
Lecture 25 - Rectangular Waveguides |
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NOC:Electromagnetic Waves in Guided and Wireless Media |
Lecture 26 - Modes of Rectangular Waveguides |
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NOC:Electromagnetic Waves in Guided and Wireless Media |
Lecture 27 - Waveguides summary and Introduction to Radiation |
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NOC:Electromagnetic Waves in Guided and Wireless Media |
Lecture 28 - Solution to Electric Scalar Potential and Magnetic Vector Potential Equations |
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NOC:Electromagnetic Waves in Guided and Wireless Media |
Lecture 29 - Further discussion on Magnetic Vector Potential and Elementary Hertzian Dipole |
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NOC:Electromagnetic Waves in Guided and Wireless Media |
Lecture 30 - Near field and Far-field Antenna and Properties of Antennas |
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NOC:Electromagnetic Waves in Guided and Wireless Media |
Lecture 31 - Linear antenna - I |
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NOC:Electromagnetic Waves in Guided and Wireless Media |
Lecture 32 - Linear antenna - II and Properties of Transmitting and Receiving Antenna |
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NOC:Electromagnetic Waves in Guided and Wireless Media |
Lecture 33 - Friis Transmission Formula |
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NOC:Electromagnetic Waves in Guided and Wireless Media |
Lecture 34 - Antenna Array |
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NOC:Electromagnetic Waves in Guided and Wireless Media |
Lecture 35 - Wireless Channel |
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NOC:Electromagnetic Waves in Guided and Wireless Media |
Lecture 36 - Further discussion on Wireless Channel Modelling |
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NOC:Electromagnetic Waves in Guided and Wireless Media |
Lecture 37 - Diffraction - I |
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NOC:Electromagnetic Waves in Guided and Wireless Media |
Lecture 38 - Diffraction - II |
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NOC:Electromagnetic Waves in Guided and Wireless Media |
Lecture 39 - Distribution of Laser Beam |
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NOC:Electromagnetic Waves in Guided and Wireless Media |
Lecture 40 - Interference (Double slit experiment, Fabry Perot Interferometer) |
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NOC:Electromagnetic Waves in Guided and Wireless Media |
Lecture 41 - Summary |
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NOC:Basic Electric Circuits |
Lecture 1 - Basic Concepts |
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NOC:Basic Electric Circuits |
Lecture 2 - Sinusoids and Phasors |
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NOC:Basic Electric Circuits |
Lecture 3 - Circuit Elements - Part 1 |
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NOC:Basic Electric Circuits |
Lecture 4 - Circuit Elements - Part 2 |
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NOC:Basic Electric Circuits |
Lecture 5 - AC Power Analysis |
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NOC:Basic Electric Circuits |
Lecture 6 - RMS Voltage and Current |
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NOC:Basic Electric Circuits |
Lecture 7 - Topology |
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NOC:Basic Electric Circuits |
Lecture 8 - Star-Delta Transformation and Mesh Analysis |
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NOC:Basic Electric Circuits |
Lecture 9 - Mesh Analysis. |
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NOC:Basic Electric Circuits |
Lecture 10 - Nodal Analysis |
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NOC:Basic Electric Circuits |
Lecture 11 - Linearity Property and Superposition Theorem |
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NOC:Basic Electric Circuits |
Lecture 12 - Source Transformation |
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NOC:Basic Electric Circuits |
Lecture 13 - Duality |
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NOC:Basic Electric Circuits |
Lecture 14 - Thevenin's Theorem - 1 |
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NOC:Basic Electric Circuits |
Lecture 15 - Thevenin's Theorem - 2 |
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NOC:Basic Electric Circuits |
Lecture 16 - Norton's Theorem - 1 |
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NOC:Basic Electric Circuits |
Lecture 17 - Norton's Theorem - 2 |
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NOC:Basic Electric Circuits |
Lecture 18 - Maximum Power Transfer Theorem - 1 |
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NOC:Basic Electric Circuits |
Lecture 19 - Maximum Power Transfer Theorem - 2 |
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NOC:Basic Electric Circuits |
Lecture 20 - Reciprocity and Compensation Theorem |
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NOC:Basic Electric Circuits |
Lecture 21 - First Order RC Circuits |
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NOC:Basic Electric Circuits |
Lecture 22 - First Order RL Circuits |
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NOC:Basic Electric Circuits |
Lecture 23 - Singularity Functions |
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NOC:Basic Electric Circuits |
Lecture 24 - Step Response of RC and RL Circuits |
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NOC:Basic Electric Circuits |
Lecture 25 - Second Order Response |
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NOC:Basic Electric Circuits |
Lecture 26 - Step Response of Second Order Circuits-First Order and Second Order Circuits (Continued...) |
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NOC:Basic Electric Circuits |
Lecture 27 - Step Response of Parallel RLC Circuit-First Order and Second Order Circuits (Continued...) |
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NOC:Basic Electric Circuits |
Lecture 28 - Definition of the Laplace Transform |
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NOC:Basic Electric Circuits |
Lecture 29 - Properties of the Laplace Transform |
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NOC:Basic Electric Circuits |
Lecture 30 - Inverse Laplace Transform |
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NOC:Basic Electric Circuits |
Lecture 31 - Laplace Transform of Circuit Elements |
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NOC:Basic Electric Circuits |
Lecture 32 - Transfer Function |
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NOC:Basic Electric Circuits |
Lecture 33 - Convolution Integral |
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NOC:Basic Electric Circuits |
Lecture 34 - Graphical Approach of Convolution Integral |
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NOC:Basic Electric Circuits |
Lecture 35 - Network Stability and Network Synthesis |
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NOC:Basic Electric Circuits |
Lecture 36 - Impedance Parameters |
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NOC:Basic Electric Circuits |
Lecture 37 - Admittance Parameters |
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NOC:Basic Electric Circuits |
Lecture 38 - Hybrid Parameters |
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NOC:Basic Electric Circuits |
Lecture 39 - Transmission Parameters |
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NOC:Basic Electric Circuits |
Lecture 40 - Interconnection of Networks |
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NOC:Basic Electric Circuits |
Lecture 41 - Nodal and Mesh Analysis |
| Link |
NOC:Basic Electric Circuits |
Lecture 42 - Superposition Theorem and Source Transformation |
| Link |
NOC:Basic Electric Circuits |
Lecture 43 - Thevenin's, Norton's and, Maximum Power Transfer Theorem |
| Link |
NOC:Basic Electric Circuits |
Lecture 44 - Magnetically Coupled Circuits |
| Link |
NOC:Basic Electric Circuits |
Lecture 45 - Energy in Coupled Circuits and Ideal Transformer |
| Link |
NOC:Basic Electric Circuits |
Lecture 46 - Ideal Transformer and Introduction to Three-Phase Circuits |
| Link |
NOC:Basic Electric Circuits |
Lecture 47 - Balanced Three-Phase Connections |
| Link |
NOC:Basic Electric Circuits |
Lecture 48 - Balanced Wye-Delta and Delta-Delta Connections |
| Link |
NOC:Basic Electric Circuits |
Lecture 49 - Balanced Delta-Wye Connection and Power in Balanced Three-Phase System |
| Link |
NOC:Basic Electric Circuits |
Lecture 50 - Unbalanced Three-Phase System and Three-Phase Power Measurement |
| Link |
NOC:Basic Electric Circuits |
Lecture 51 - Introduction to Graphical Models |
| Link |
NOC:Basic Electric Circuits |
Lecture 52 - State Equations |
| Link |
NOC:Basic Electric Circuits |
Lecture 53 - State Diagram |
| Link |
NOC:Basic Electric Circuits |
Lecture 54 - State Transition Matrix |
| Link |
NOC:Basic Electric Circuits |
Lecture 55 - State Variable Method to Circuit Analysis |
| Link |
NOC:Basic Electric Circuits |
Lecture 56 - Characteristic Equation, Eigenvalues, and Eigenvectors-State Variable Analysis (Continued...) |
| Link |
NOC:Basic Electric Circuits |
Lecture 57 - Modeling of Mechanical Systems |
| Link |
NOC:Basic Electric Circuits |
Lecture 58 - Modeling of The Rotational Motion of Mechanical Systems |
| Link |
NOC:Basic Electric Circuits |
Lecture 59 - Modeling of Electrical Systems |
| Link |
NOC:Basic Electric Circuits |
Lecture 60 - Solving Analogous Systems |
| Link |
NOC:Fundamentals of Electric Drives |
Lecture 1 - Introduction to Electric Drives |
| Link |
NOC:Fundamentals of Electric Drives |
Lecture 2 - Dynamics of Electric Drives, Four Quadrant Operation, Equivalent Drive Parameters |
| Link |
NOC:Fundamentals of Electric Drives |
Lecture 3 - Equivalent Drive Parameters, Friction Components, Nature of Load Torque |
| Link |
NOC:Fundamentals of Electric Drives |
Lecture 4 - Steady State Stability, Load Equalization |
| Link |
NOC:Fundamentals of Electric Drives |
Lecture 5 - Load Equalization, Characteristics of DC Motor |
| Link |
NOC:Fundamentals of Electric Drives |
Lecture 6 - Speed Torque Characteristics of Separately Excited DC Motor and Series DC Motor |
| Link |
NOC:Fundamentals of Electric Drives |
Lecture 7 - Field Control of Series Motor, Motoring and Braking of Separately Excited and Series DC motors |
| Link |
NOC:Fundamentals of Electric Drives |
Lecture 8 - Speed Control of Separately Excited DC Motor Using Controlled Rectifiers |
| Link |
NOC:Fundamentals of Electric Drives |
Lecture 9 - Analysis of Single Phase Full Controlled Converter-fed Separately Excited DC Motor |
| Link |
NOC:Fundamentals of Electric Drives |
Lecture 10 - Speed Torque Characteristics of Full Controlled Converter-fed Separately Excited DC Motor, Analysis of Single Phase Half Controlled Converter-fed Separately Excited DC Motor |
| Link |
NOC:Fundamentals of Electric Drives |
Lecture 11 - Analysis of Single Phase Half Controlled Converter-fed Separately Excited DC Motor. |
| Link |
NOC:Fundamentals of Electric Drives |
Lecture 12 - Three Phase Full Controlled Converter-fed Separately Excited DC Motor, Multi-quadrant Operation of DC Motor |
| Link |
NOC:Fundamentals of Electric Drives |
Lecture 13 - Dual Converter-fed DC Motor, Multi-quadrant Operation Using Field Current Reversal |
| Link |
NOC:Fundamentals of Electric Drives |
Lecture 14 - DC Chopper-fed Separately Excited DC Motor for Motoring and Braking |
| Link |
NOC:Fundamentals of Electric Drives |
Lecture 15 - Two-quadrant DC Chopper, Four-quadrant DC Chopper |
| Link |
NOC:Fundamentals of Electric Drives |
Lecture 16 - Dynamic Braking of DC Motor by Chopper Controlled Resistor, Closed-loop Operation of DC Drives, Induction Motor Drives |
| Link |
NOC:Fundamentals of Electric Drives |
Lecture 17 - Speed Torque Characteristics of Induction Motor, Operation of Induction Motor from Non-sinusoidal Supply |
| Link |
NOC:Fundamentals of Electric Drives |
Lecture 18 - Operation of Induction Motor from Non-sinusoidal Supply |
| Link |
NOC:Fundamentals of Electric Drives |
Lecture 19 - Stator Current of Induction Motor with Non-sinusoidal Supply, Operation of Induction Motor with Unbalanced Voltage Supply |
| Link |
NOC:Fundamentals of Electric Drives |
Lecture 20 - Single Phasing of Induction Motor, Braking of Induction Motor |
| Link |
NOC:Fundamentals of Electric Drives |
Lecture 21 - Dynamic braking of induction motor, AC dynamic braking, DC dynamic braking |
| Link |
NOC:Fundamentals of Electric Drives |
Lecture 22 - Analysis of DC dynamic braking of induction motor |
| Link |
NOC:Fundamentals of Electric Drives |
Lecture 23 - Self-excited dynamic braking of induction motor, Speed control of induction motor using stator voltage regulator, Variable voltage variable frequency control |
| Link |
NOC:Fundamentals of Electric Drives |
Lecture 24 - Variable voltage variable frequency control of induction motor, Open loop V/F control |
| Link |
NOC:Fundamentals of Electric Drives |
Lecture 25 - Slip speed control of induction motor, Constant Volt/Hz control with slip speed regulation |
| Link |
NOC:Fundamentals of Electric Drives |
Lecture 26 - Closed-loop Volt/Hz control of induction motor with slip speed regulation, Multi-quadrant operation of induction motor drive |
| Link |
NOC:Fundamentals of Electric Drives |
Lecture 27 - Current Source Inverter (CSI) fed induction motor drive |
| Link |
NOC:Fundamentals of Electric Drives |
Lecture 28 - Closed-loop operation of current source inverter (CSI) fed induction motor drive, Control of slip ring induction motor - Static rotor resistance control |
| Link |
NOC:Fundamentals of Electric Drives |
Lecture 29 - Closed-loop operation of slip ring induction motor with static rotor resistance control, Slip power recovery in slip ring induction motor - Static Kramer drive |
| Link |
NOC:Fundamentals of Electric Drives |
Lecture 30 - Static Kramer drive and its closed-loop control, Introduction to synchronous motor |
| Link |
NOC:Fundamentals of Electric Drives |
Lecture 31 - Various types of synchronous motors, Equivalent circuit and phasor diagram of cylindrical synchronous motor, Speed-torque characteristics of cylindrical synchronous motor |
| Link |
NOC:Fundamentals of Electric Drives |
Lecture 32 - Phasor diagram of salient pole synchronous motor, Expression of power and torque for a salient pole synchronous motor, Synchronous reluctance motor, Open-loop V/f control of synchronous motor |
| Link |
NOC:Fundamentals of Electric Drives |
Lecture 33 - Open-loop V/f control, Torque-speed characteristics, Self controlled synchronous motor drive employing load commutated thyristor inverter |
| Link |
NOC:Fundamentals of Electric Drives |
Lecture 34 - Detailed analysis of commutation of load commutated thyrisor inverter, Derivation of overlap angle and margin angle, Closed-loop speed control scheme for load commutated inverter-fed synchronous motor drive |
| Link |
NOC:Fundamentals of Electric Drives |
Lecture 35 - Low cost brushless DC motor (BLDCM), Trapezoidal permanent magnet AC motor |
| Link |
NOC:Fundamentals of Electric Drives |
Lecture 36 - Trapezoidal permanent magnet AC motor, Derivation of power and torque, Closed-loop control of trapezoidal BLDC motor, Introduction to switched reluctance motor |
| Link |
NOC:Fundamentals of Electric Drives |
Lecture 37 - Construction and operating principle of switched reluctance motor |
| Link |
NOC:Fundamentals of Electric Drives |
Lecture 38 - Current/ voltage control for switched reluctance motor, operating modes of switched reluctance motor, Introduction to traction drives |
| Link |
NOC:Fundamentals of Electric Drives |
Lecture 39 - Current collector for mainline trains, Nature of traction load, Duty cycle of traction drives |
| Link |
NOC:Fundamentals of Electric Drives |
Lecture 40 - Duty cycle of traction drives, Distance between two stops, Calculation of total tractive effort and drive rating |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 1 - Introduction: Fuzzy Sets, Logic and Systems and Applications |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 2 - Introduction: Real Life Applications of Fuzzy Systems |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 3 - Fuzzy Sets and Fuzzy Logic Toolbox in MATLAB - I |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 4 - Fuzzy Sets and Fuzzy Logic Toolbox in MATLAB - II |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 5 - Membership Functions - I |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 6 - Membership Functions - II |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 7 - Nomenclatures used in Fuzzy Set Theory - I |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 8 - Nomenclatures used in Fuzzy Set Theory - II |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 9 - Nomenclatures used in Fuzzy Set Theory - III |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 10 - Set Theoretic Operations on Fuzzy Sets - I |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 11 - Set Theoretic Operations on Fuzzy Sets - II |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 12 - Properties of Fuzzy Sets - I |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 13 - Properties of Fuzzy Sets - II |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 14 - Properties of Fuzzy Sets - III |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 15 - Properties of Fuzzy Sets - IV |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 16 - Properties of Fuzzy Sets - V |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 17 - Distance between Fuzzy Sets - I |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 18 - Distance between Fuzzy Sets - II |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 19 - Distance between Fuzzy Sets - III |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 20 - Arithmetic Operations on Fuzzy Numbers - I |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 21 - Arithmetic Operations on Fuzzy Numbers - II |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 22 - Arithmetic Operations on Fuzzy Numbers - III |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 23 - Complement of Fuzzy Sets |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 24 - T-norm Operators |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 25 - S-norm Operators |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 26 - Parameterized T-Norm Operators |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 27 - Parameterized S-Norm Operators |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 28 - Fuzzy Relation - I |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 29 - Fuzzy Relation - II |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 30 - Operations on Crisp and Fuzzy Relations |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 31 - Projection of Fuzzy Relation Set |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 32 - Cylindrical Extension of Fuzzy Set |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 33 - Properties of Fuzzy Relation - I |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 34 - Properties of Fuzzy Relation - II |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 35 - Extension Principle |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 36 - Composition of Fuzzy Relations |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 37 - Properties of Composition of Fuzzy Relations |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 38 - Fuzzy Tolerance and Equivalence Relations - I |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 39 - Fuzzy Tolerance and Equivalence Relations - II |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 40 - Fuzzy Tolerance and Equivalence Relations - III |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 41 - Linguistic Hedges |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 42 - Linguistic Hedges and Negation/ Complement and Connectives |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 43 - Concentration and Dilation and Composite Linguistic Term and Some Examples |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 44 - Dilation and Composite Linguistic Term and Some Examples |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 45 - Some Examples on Composite Linguistic Terms |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 46 - Contrast Intensification of Fuzzy Sets |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 47 - Orthogonality of Fuzzy Sets |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 48 - Fuzzy Rules and Fuzzy Reasoning - I |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 49 - Fuzzy Rules and Fuzzy Reasoning - II |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 50 - Fuzzy Inference System |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 51 - Mamdani Fuzzy Model - I |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 52 - Mamdani Fuzzy Model - II |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 53 - Mamdani Fuzzy Model - III |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 54 - Example on Mamdani Fuzzy Model for Single Antecedent with Three Rules |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 55 - Example on Mamdani Fuzzy Model for Two Antecedents with Four Rules |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 56 - Larsen Fuzzy Model - I |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 57 - Larsen Fuzzy Model - II |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 58 - Larsen Fuzzy Model - III |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 59 - Tsukamoto Fuzzy Model |
| Link |
NOC:Fuzzy Sets, Logic and Systems and Applications |
Lecture 60 - TSK Fuzzy Model |
| Link |
NOC:Peer to Peer Networks |
Lecture 1 - Introduction to Peer to Peer Networks |
| Link |
NOC:Peer to Peer Networks |
Lecture 2 - Peer to Peer Network in Telephony:Voice over Internet Telephony (VoIP) and Distributed Hash Table (DHT) |
| Link |
NOC:Peer to Peer Networks |
Lecture 3 - Building DHT Networks |
| Link |
NOC:Peer to Peer Networks |
Lecture 4 - Logarithmic Partitioning of Node ID Space and Index Entry Authenticity |
| Link |
NOC:Peer to Peer Networks |
Lecture 5 - Implementation of Voice over Internet Telephony in P2P Way |
| Link |
NOC:Peer to Peer Networks |
Lecture 6 - Leaf Nodes, Core Nodes and Type of Messages in DHT Networks |
| Link |
NOC:Peer to Peer Networks |
Lecture 7 - Static and Dynamic Partitioning of Node ID Space: Fixed and Floating Partitioning |
| Link |
NOC:Peer to Peer Networks |
Lecture 8 - PASTRY Protocol: The Efficient Use of Internet Infrastructure |
| Link |
NOC:Peer to Peer Networks |
Lecture 9 - Understanding the PASTRY Protocol through Example |
| Link |
NOC:Peer to Peer Networks |
Lecture 10 - Kademlia: A DHT Routing Protocol |
| Link |
NOC:Peer to Peer Networks |
Lecture 11 - Tapestry: An Evolution of Kademlia |
| Link |
NOC:Peer to Peer Networks |
Lecture 12 - Understanding the Tapestry Protocol through Example |
| Link |
NOC:Peer to Peer Networks |
Lecture 13 - Multi-dimensional Distributed Hash Table: Mapping of Peers into Multidimensional Space |
| Link |
NOC:Peer to Peer Networks |
Lecture 14 - Multi-Layer DHT: A Design for Multiple Services |
| Link |
NOC:Peer to Peer Networks |
Lecture 15 - Keeping Pairs at Correct Root Nodes |
| Link |
NOC:Peer to Peer Networks |
Lecture 16 - Abrupt and Graceful Exit of Root Node: Maintaining Pairs Alive |
| Link |
NOC:Peer to Peer Networks |
Lecture 17 - Resilience of Pairs |
| Link |
NOC:Peer to Peer Networks |
Lecture 18 - A P2P Distributed File System |
| Link |
NOC:Peer to Peer Networks |
Lecture 19 - Storage Space Problem and Incentives to Share Storage |
| Link |
NOC:Peer to Peer Networks |
Lecture 20 - P2P Nodes Communications Challenges in Heterogeneous Network Environments |
| Link |
NOC:Peer to Peer Networks |
Lecture 21 - P2P Overlaid Multicast: Basic Design |
| Link |
NOC:Peer to Peer Networks |
Lecture 22 - P2P Overlaid Multicast: Alternate Design |
| Link |
NOC:Peer to Peer Networks |
Lecture 23 - A Design of P2P Email System |
| Link |
NOC:Peer to Peer Networks |
Lecture 24 - P2P Mailing List Services: A Basic Design |
| Link |
NOC:Peer to Peer Networks |
Lecture 25 - P2P Mailing List Services: An Alternate Design |
| Link |
NOC:Peer to Peer Networks |
Lecture 26 - P2P Web: A Basic Design |
| Link |
NOC:Peer to Peer Networks |
Lecture 27 - P2P Web Search Engine: A Basic Design |
| Link |
NOC:Peer to Peer Networks |
Lecture 28 - P2P Internet: On Being Anonymous |
| Link |
NOC:Peer to Peer Networks |
Lecture 29 - P2P in Blockchain |
| Link |
NOC:Peer to Peer Networks |
Lecture 30 - P2P Anonymous Communication |
| Link |
NOC:Peer to Peer Networks |
Lecture 31 - The Anonymous Communication on the Internet through TOR Network |
| Link |
NOC:Peer to Peer Networks |
Lecture 32 - An Introduction To TOR Browser: The Anonymity Preserving Access of the Web Sites |
| Link |
NOC:Peer to Peer Networks |
Lecture 33 - Hidden Services on TOR Network |
| Link |
NOC:Peer to Peer Networks |
Lecture 34 - MOOC Wrap-Up : Summary of the Course |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 1 - Vector Properties: Addition, Linear Combination, Inner Product, Orthogonality, Norm |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 2 - Vectors: Unit Norm Vector, Cauchy-Schwarz inequality, Radar Application |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 3 - Inner Product Application: Beamforming in Wireless Communication Systems |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 4 - Matrices, Definition, Addition and Multiplication of Matrices |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 5 - Matrix: Column Space, Linear Independence, Rank of Matrix, Gaussian Elimination |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 6 - Matrix: Determinant, Inverse Computation, Adjoint, Cofactor Concepts |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 7 - Applications of Matrices: Solution of System of Linear equations, MIMO Wireless Technology |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 8 - Applications of Matrices: Electric Circuits, Traffic flows |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 9 - Applications of Matrices: Graph Theory, Social Networks, Dominance Directed Graph, Influential Node |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 10 - Null Space of Matrix: Definition, Rank-Nullity Theorem, Application in Electric Circuits |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 11 - Gram-Schmidt Orthogonalization |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 12 - Gaussian Random Variable: Definition, Mean, Variance, Multivariate Gaussian, Covariance Matrix |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 13 - Linear Transformation of Gaussian Random Vectors |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 14 - Machine Learning Application: Gaussian Classification |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 15 - Eigenvalue: Definition, Characteristic Equation, Eigenvalue Decomposition |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 16 - Special Matrices: Rotation and Unitary Matrices, Application: Alamouti Code |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 17 - Positive Semi-definite (PSD) Matrices: Definition, Properties, Eigenvalue Decomposition |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 18 - Positive Semidefinite Matrix: Example and Illustration of Eigenvalue Decomposition |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 19 - Machine Learning Application: Principle Component Analysis (PCA) |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 20 - Computer Vision Application: Face Recognition, Eigenfaces |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 21 - Least Squares (LS) Solution, Pseudo-Inverse Concept |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 22 - Least Squares (LS) via Principle of Orthogonality, Projection Matrix, Properties |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 23 - Application: Pseudo-Inverse and MIMO Zero Forcing (ZF) Receiver |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 24 - Wireless Application: Multi-Antenna Channel Estimation |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 25 - Machine Learning Application: Linear Regression |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 26 - Computation Mathematics Application: Polynomial Fitting |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 27 - Least Norm Solution |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 28 - Wireless Application: Multi-user Beamforming |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 29 - Singular Value Decomposition (SVD): Definition, Properties, Example |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 30 - SVD Application in MIMO Wireless Technology: Spatial-Multiplexing and High Data Rates |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 31 - SVD for MIMO wireless optimization, water-filling algorithm, optimal power allocation |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 32 - SVD application for Machine Learning: Principal component analysis (PCA) |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 33 - Multiple signal classification (MUSIC) algorithm: system model |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 34 - MUSIC algorithm for Direction of Arrival (DoA) estimation |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 35 - Linear minimum mean square error (LMMSE) principle |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 36 - LMMSE estimate and error covariance matrix |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 37 - LMMSE estimation in linear systems |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 38 - LMMSE application: Wireless channel estimation and example |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 39 - Time-series prediction via auto-regressive (AR) model |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 40 - Recommender system: design and rating prediction |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 41 - Recommender system: Illustration via movie rating prediction example |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 42 - Fast Fourier transform (FFT) and Inverse fast Fourier transform (IFFT) |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 43 - IFFT/ FFT application in Orthogonal Frequency Division Multiplexing (OFDM) wireless technology |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 44 - OFDM system: Circulant matrices and properties |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 45 - OFDM system model: Transmitter and receiver processing |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 46 - Single-carrier frequency division for multiple access (SC-FDMA) technology |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 47 - Linear dynamical systems: definition and solution via matrix exponential |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 48 - Linear dynamical systems: matrix exponential via SVD |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 49 - Machine Learning application: Support Vector Machines (SVM) |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 50 - Support Vector Machines (SVM): Problem formulation via maximum hyperplane separation |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 51 - Sparse regression: problem formulation and relation to Compressive Sensing (CS) |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 52 - Sparse regression: solution via the Orthogonal Matching Pursuit (OMP) algorithm |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 53 - OMP Example for Sparse Regression |
| Link |
NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 54 - Machine Learning Application: Clustering |
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NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 55 - K-Means Clustering algorithm |
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NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 56 - Introduction to Stochastic Processes and Markov Chains |
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NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 57 - Discrete Time Markov Chains and Transition Probability Matrix |
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NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 58 - Discrete Time Markov Chain Examples |
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NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 59 - m-STEP Transition Probabilities for Discrete Time Markov Chains |
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NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 60 - Limiting Behavior of Discrete Time Markov Chains |
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NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 61 - Least Squares Revisited: Rank Deficient Matrix |
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NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 62 - Least Squares using SVD |
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NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 63 - Weighted Least Squares |
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NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 64 - Weighted Least Squares Example |
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NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 65 - Woodbury Matrix Identity - Matrix Inversion Lemma |
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NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 66 - Woodbury Matrix Identity - Proof |
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NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 67 - Conditional Gaussian Density - Mean |
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NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 68 - Conditional Gaussian Density - Covariance |
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NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 69 - Scalar Linear Model for Gaussian Estimation |
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NOC:Applied Linear Algebra for Signal Processing, Data Analytics and Machine Learning |
Lecture 70 - MMSE Estimate and Covariance for the Scalar Linear Model |
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NOC:Economic Operations and Control of Power Systems |
Lecture 1 |
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NOC:Economic Operations and Control of Power Systems |
Lecture 2 |
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NOC:Economic Operations and Control of Power Systems |
Lecture 3 |
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NOC:Economic Operations and Control of Power Systems |
Lecture 4 |
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NOC:Economic Operations and Control of Power Systems |
Lecture 5 |
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NOC:Economic Operations and Control of Power Systems |
Lecture 6 |
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NOC:Economic Operations and Control of Power Systems |
Lecture 7 |
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NOC:Economic Operations and Control of Power Systems |
Lecture 8 |
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NOC:Economic Operations and Control of Power Systems |
Lecture 9 |
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NOC:Economic Operations and Control of Power Systems |
Lecture 10 |
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NOC:Economic Operations and Control of Power Systems |
Lecture 11 |
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NOC:Economic Operations and Control of Power Systems |
Lecture 12 |
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NOC:Economic Operations and Control of Power Systems |
Lecture 13 |
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NOC:Economic Operations and Control of Power Systems |
Lecture 14 |
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NOC:Economic Operations and Control of Power Systems |
Lecture 15 |
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NOC:Economic Operations and Control of Power Systems |
Lecture 16 |
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Lecture 17 |
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Lecture 18 |
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Lecture 19 |
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Lecture 20 |
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Lecture 21 |
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Lecture 22 |
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Lecture 23 |
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Lecture 24 |
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Lecture 25 |
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Lecture 26 |
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Lecture 27 |
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Lecture 28 |
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Lecture 29 |
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Lecture 30 |
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Lecture 31 |
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Lecture 32 |
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Lecture 33 |
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Lecture 34 |
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Lecture 35 |
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Lecture 36 |
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Lecture 37 |
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Lecture 38 |
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Lecture 39 |
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Lecture 40 |
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Lecture 41 |
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Lecture 42 |
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Lecture 43 |
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Lecture 44 |
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Lecture 45 |
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Lecture 46 |
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Lecture 47 |
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NOC:Economic Operations and Control of Power Systems |
Lecture 48 |
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NOC:Economic Operations and Control of Power Systems |
Lecture 49 |
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Lecture 50 |
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Lecture 51 |
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Lecture 52 |
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Lecture 53 |
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Lecture 54 |
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Lecture 55 |
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Lecture 56 |
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Lecture 57 |
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Lecture 58 |
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Lecture 59 |
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Lecture 60 |
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NOC:Digital Switching |
Lecture 1 |
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NOC:Digital Switching |
Lecture 2 |
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Lecture 3 |
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Lecture 4 |
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Lecture 5 |
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Lecture 6 |
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Lecture 7 |
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Lecture 8 |
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Lecture 9 |
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Lecture 10 |
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Lecture 11 |
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Lecture 12 |
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Lecture 13 |
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Lecture 14 |
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Lecture 15 |
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Lecture 16 |
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Lecture 17 |
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Lecture 18 |
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Lecture 19 |
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Lecture 20 |
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Lecture 21 |
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Lecture 22 |
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Lecture 23 |
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Lecture 24 |
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Lecture 25 |
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Lecture 26 |
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Lecture 27 |
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Lecture 28 |
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Lecture 29 |
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Lecture 30 |
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Lecture 31 |
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Lecture 32 |
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Lecture 33 |
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Lecture 34 |
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Lecture 35 |
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Lecture 36 |
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Lecture 37 |
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NOC:Digital Switching |
Lecture 38 |
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NOC:Analog VLSI Design |
Lecture 1 |
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Lecture 2 |
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NOC:Analog VLSI Design |
Lecture 3 |
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Lecture 4 |
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Lecture 5 |
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Lecture 6 |
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Lecture 7 |
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Lecture 8 |
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Lecture 9 |
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Lecture 10 |
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Lecture 11 |
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Lecture 12 |
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Lecture 13 |
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Lecture 14 |
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NOC:Analog VLSI Design |
Lecture 15 |
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NOC:Analog VLSI Design |
Lecture 16 |
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NOC:Analog VLSI Design |
Lecture 17 |
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NOC:Analog VLSI Design |
Lecture 18 |
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NOC:Analog VLSI Design |
Lecture 19 |
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NOC:Analog VLSI Design |
Lecture 20 |
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NOC:Analog VLSI Design |
Lecture 21 |
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Lecture 22 |
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Lecture 23 |
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NOC:Analog VLSI Design |
Lecture 24 |
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NOC:Analog VLSI Design |
Lecture 25 |
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NOC:Analog VLSI Design |
Lecture 26 |
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NOC:Analog VLSI Design |
Lecture 27 |
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NOC:Analog VLSI Design |
Lecture 28 |
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NOC:Analog VLSI Design |
Lecture 29 |
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NOC:Analog VLSI Design |
Lecture 30 |
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NOC:Analog VLSI Design |
Lecture 31 |
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Lecture 32 |
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NOC:Analog VLSI Design |
Lecture 33 |
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Lecture 34 |
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Lecture 35 |
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Lecture 36 |
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Lecture 37 |
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Lecture 38 |
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NOC:Analog VLSI Design |
Lecture 39 |
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NOC:Analog VLSI Design |
Lecture 40 |
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NOC:Analog VLSI Design |
Lecture 41 |
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NOC:Analog VLSI Design |
Lecture 42 |
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NOC:Analog VLSI Design |
Lecture 43 |
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Lecture 44 |
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Lecture 45 |
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Lecture 46 |
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Lecture 47 |
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NOC:Analog VLSI Design |
Lecture 48 |
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NOC:Analog VLSI Design |
Lecture 49 |
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NOC:Analog VLSI Design |
Lecture 50 |
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NOC:Analog VLSI Design |
Lecture 51 |
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NOC:Analog VLSI Design |
Lecture 52 |
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NOC:Analog VLSI Design |
Lecture 53 |
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NOC:Analog VLSI Design |
Lecture 54 |
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NOC:Analog VLSI Design |
Lecture 55 |
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NOC:Analog VLSI Design |
Lecture 56 |
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NOC:Analog VLSI Design |
Lecture 57 |
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NOC:Analog VLSI Design |
Lecture 58 |
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NOC:Analog VLSI Design |
Lecture 59 |
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NOC:Analog VLSI Design |
Lecture 60 |
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NOC:Analog VLSI Design |
Lecture 61 |
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NOC:Analog VLSI Design |
Lecture 62 |
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NOC:Analog VLSI Design |
Lecture 63 |
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NOC:Analog VLSI Design |
Lecture 64 |
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NOC:Analog VLSI Design |
Lecture 65 |
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Electrical Machines I |
Lecture 1 - Introduction |
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Electrical Machines I |
Lecture 2 - Operating Principles and Construction of Single Phase Transformers |
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Electrical Machines I |
Lecture 3 - Modeling of Single Phase Transformers |
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Electrical Machines I |
Lecture 4 - Equivalent Circuits of Single Phase Transformers |
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Electrical Machines I |
Lecture 5 - Testing of Single Phase Transformers |
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Electrical Machines I |
Lecture 6 - Efficiency of Single Phase Transformers |
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Electrical Machines I |
Lecture 7 - Voltage Regulation of Single Phase Transformers |
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Electrical Machines I |
Lecture 8 - Parallel Operation of Single Phase Transformers |
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Electrical Machines I |
Lecture 9 - Harmonics and Switching Transients in Single Phase Transformers |
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Electrical Machines I |
Lecture 10 - Introduction to Three Phase Transformer |
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Electrical Machines I |
Lecture 11 - Construction of Three Phase Transformers |
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Electrical Machines I |
Lecture 12 - Three Phase Transformer Connections |
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Electrical Machines I |
Lecture 13 - Three Phase Transformer Phase Groups Part - I |
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Electrical Machines I |
Lecture 14 - Three Phase Transformer Phase Groups Part - II |
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Electrical Machines I |
Lecture 15 - Analysis and Testing of Three Phase Transformers |
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Electrical Machines I |
Lecture 16 - Operation of Three Phase Transformers |
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Electrical Machines I |
Lecture 17 - Auto Transformers |
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Electrical Machines I |
Lecture 18 - Three Winding Transformers |
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Electrical Machines I |
Lecture 19 - Scott Connected Transformers |
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Electrical Machines I |
Lecture 20 - Potential and Current Transformers |
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Electrical Machines I |
Lecture 21 - Operating Principles of DC Machines |
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Electrical Machines I |
Lecture 22 - Constructional Features of DC Machines |
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Electrical Machines I |
Lecture 23 - Generated EMF and Torque in DC Machines |
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Electrical Machines I |
Lecture 24 - Armature Reaction |
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Electrical Machines I |
Lecture 25 - Commutation in DC Machines |
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Electrical Machines I |
Lecture 26 - Separately Excited DC Generators |
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Electrical Machines I |
Lecture 27 - DC Shunt Generators |
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Electrical Machines I |
Lecture 28 - Compound DC Generators |
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Electrical Machines I |
Lecture 29 - Interconnected DC Generators |
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Electrical Machines I |
Lecture 30 - Characteristics of DC Shunt Motors |
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Electrical Machines I |
Lecture 31 - Starting of DC Shunt Motors |
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Electrical Machines I |
Lecture 32 - Speed Control of DC Shunt Motors |
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Electrical Machines I |
Lecture 33 - Braking of DC Shunt Motors |
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Electrical Machines I |
Lecture 34 - Electronic Control of DC Shunt Motors |
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Electrical Machines I |
Lecture 35 - Testing of DC Shunt Motors |
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Electrical Machines I |
Lecture 36 - Characteristics of DC Series Motors |
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Electrical Machines I |
Lecture 37 - Starting and Braking of DC Series Motors |
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Electrical Machines I |
Lecture 38 - Speed Control and of DC Series Motors |
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Electrical Machines I |
Lecture 39 - Testing of DC Series Motors |
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Electrical Machines I |
Lecture 40 - Characteristics of Compound DC Series Motors |
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Optimal Control |
Lecture 1 - Introduction to Optimization Problem: Some Examples |
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Optimal Control |
Lecture 2 - Introduction to Optimization Problem: Some Examples (Continued.) |
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Optimal Control |
Lecture 3 - Optimality Conditions for Function of Several Variables |
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Optimal Control |
Lecture 4 - Optimality Conditions for Function of Several Variables (Continued.) |
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Optimal Control |
Lecture 5 - Unconstrained Optimization Problem (Numerical Techniques) |
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Optimal Control |
Lecture 6 - Solution of Unconstrained Optimization Problem Using Conjugate Quadient Method and Networks Methods |
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Optimal Control |
Lecture 7 - Solution of Unconstrained Optimization Problem Using Conjugate Quadient Method and Networks Methods (Continued.) |
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Optimal Control |
Lecture 8 - Solution of Constraint Optimization Problem-Karush-Kuhn Tucker (KKT) Conditions |
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Optimal Control |
Lecture 9 - Solution of Constraint Optimization Problem-Karush-Kuhn Tucker (KKT) Conditions (Continued.) |
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Optimal Control |
Lecture 10 - Problem and Solution Session |
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Optimal Control |
Lecture 11 - Post Optimality Analysis, Convex Function and its Properties |
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Optimal Control |
Lecture 12 - Post Optimality Analysis, Convex Function and its Properties (Continued.) |
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Optimal Control |
Lecture 13 - Quadratic Optimization Problem Using Linear Programming |
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Optimal Control |
Lecture 14 - Matrix form of the Simplex Method |
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Optimal Control |
Lecture 15 - Matrix form of the Simplex Method (Continued.) |
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Optimal Control |
Lecture 16 - Solution of Linear Programming Using Simplex Method:- Algebraic Approach |
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Optimal Control |
Lecture 17 - Solution of Linear Programming Using Simplex Method:- Algebraic Approach (Continued.) |
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Optimal Control |
Lecture 18 - Solution of LP Problems with Two Phase Method |
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Optimal Control |
Lecture 19 - Solution of LP Problems with Two Phase Method (Continued.) |
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Optimal Control |
Lecture 20 - Standard Primal and Dual Problems |
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Optimal Control |
Lecture 21 - Relationship Between Primal and Dual Variables |
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Optimal Control |
Lecture 22 - Solution of Quadratic Programming Problem Using Simplex Method |
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Optimal Control |
Lecture 23 - Interior Point Method for Solving Optimization Problems |
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Optimal Control |
Lecture 24 - Interior Point Method for Solving Optimization Problems (Continued.) |
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Optimal Control |
Lecture 25 - Solution of Nonlinear Programming Problem Using Exterior Penalty Function Method |
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Optimal Control |
Lecture 26 - Solution of Nonlinear Programming Problem Using Exterior Penalty Function Method (Continued.) |
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Optimal Control |
Lecture 27 - Solution of Nonlinear Programming Problem Using Interior Penalty Function Method |
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Optimal Control |
Lecture 28 - Solution of Nonlinear Programming Problem Using Interior Penalty Function Method (Continued.) |
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Optimal Control |
Lecture 29 - Multiobjective Optimization Problem |
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Optimal Control |
Lecture 30 - Dynamic Optimization Problem: Basic Concepts and Necessary and Sufficient Condition |
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Optimal Control |
Lecture 31 - Dynamic Optimization Problem: Basic Concepts and Necessary and Sufficient Condition (Continued...1) |
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Optimal Control |
Lecture 32 - Dynamic Optimization Problem: Basic Concepts and Necessary and Sufficient Condition (Continued...2) |
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Optimal Control |
Lecture 33 - Numerical Example and Solution of Optimal Control Problem using Calculus of Variation principle |
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Optimal Control |
Lecture 34 - Numerical Example and Solution of Optimal Control Problem using Calculus of Variation principle (Continued.) |
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Optimal Control |
Lecture 35 - Hamiltonian Formulation for solution of optimal Control problem and numerical example |
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Optimal Control |
Lecture 36 - Hamiltonian Formulation for solution of optimal Control problem and numerical example (Continued.) |
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Optimal Control |
Lecture 37 - Performance Indices and Linear Quadratic Regulator Problem |
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Optimal Control |
Lecture 38 - Performance Indices and Linear Quadratic Regulator Problem (Continued.) |
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Optimal Control |
Lecture 39 - Solution and Stability Analysis of Finite - time LQR Problem: Numerical Example |
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Optimal Control |
Lecture 40 - Solution and Infinite - time LQR Problem and Stability Analysis |
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Optimal Control |
Lecture 41 - Numerical Example and Methods for Solution of A.R.E. |
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Optimal Control |
Lecture 42 - Numerical Example and Methods for Solution of A.R.E. (Continued.) |
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Optimal Control |
Lecture 43 - Frequency Domain Interpretation of LQR Controlled System |
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Optimal Control |
Lecture 44 - Gain and Phase Margin of LQR Controlled System |
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Optimal Control |
Lecture 45 - The Linear Quadratic Gaussian Problem |
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Optimal Control |
Lecture 46 - Loop-Transfer Recovery |
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Optimal Control |
Lecture 47 - Dynamic Programming for Discrete Time Systems |
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Optimal Control |
Lecture 48 - Minimum – Time Control of a Linear Time Invariant System |
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Optimal Control |
Lecture 49 - Solution of Minimum – Time Control Problem with an Example |
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Optimal Control |
Lecture 50 - Constraint in Control Inputs and State Variables |
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Optimal Control |
Lecture 51 - Constraint in Control Inputs and State Variables (Continued...) |
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Optimal Control |
Lecture 52 - Norms for Vectors, Matrices, Signals and Linear Systems |
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Optimal Control |
Lecture 53 - Signal and System Norms |
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Optimal Control |
Lecture 54 - Internal Stability, Sensitivity and Complementary Sensitivity Functions |
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Optimal Control |
Lecture 55 - Internal Stability, Sensitivity and Complementary Sensitivity Functions (Continued...) |
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Optimal Control |
Lecture 56 - Plant Uncertainty and Standard form for Robust Stability Analysis |
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Optimal Control |
Lecture 57 - Plant Uncertainty and Standard form for Robust Stability Analysis (Continued...) |
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Optimal Control |
Lecture 58 - Frequency Response of Linear System and Singular Value Decomposition of System |
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Optimal Control |
Lecture 59 - Control Problem Statement in H- alpha Framework |
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Optimal Control |
Lecture 60 - Control Problem Statement in H - alpha Framework (Continued...) |
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Chaos, Fractals and Dynamic Systems |
Lecture 1 - Representations of Dynamical Systems |
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Chaos, Fractals and Dynamic Systems |
Lecture 2 - Vector Fields of Nonlinear Systems |
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Chaos, Fractals and Dynamic Systems |
Lecture 3 - Limit Cycles |
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Chaos, Fractals and Dynamic Systems |
Lecture 4 - The Lorenz Equation - I |
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Chaos, Fractals and Dynamic Systems |
Lecture 5 - The Lorenz Equation - II |
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Chaos, Fractals and Dynamic Systems |
Lecture 6 - The Rossler Equation and Forced Pendulum |
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Chaos, Fractals and Dynamic Systems |
Lecture 7 - The Chua's Circuit |
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Chaos, Fractals and Dynamic Systems |
Lecture 8 - Discrete Time Dynamical Systems |
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Chaos, Fractals and Dynamic Systems |
Lecture 9 - The Logistic Map and Period doubling |
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Chaos, Fractals and Dynamic Systems |
Lecture 10 - Flip and Tangent Bifurcations |
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Chaos, Fractals and Dynamic Systems |
Lecture 11 - Intermittency Transcritical and pitchfork |
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Chaos, Fractals and Dynamic Systems |
Lecture 12 - Two Dimensional Maps |
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Chaos, Fractals and Dynamic Systems |
Lecture 13 - Bifurcations in Two Dimensional Maps |
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Chaos, Fractals and Dynamic Systems |
Lecture 14 - Introduction to Fractals |
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Chaos, Fractals and Dynamic Systems |
Lecture 15 - Mandelbrot Sets and Julia Sets |
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Chaos, Fractals and Dynamic Systems |
Lecture 16 - The Space Where Fractals Live |
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Chaos, Fractals and Dynamic Systems |
Lecture 17 - Interactive Function Systems |
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Chaos, Fractals and Dynamic Systems |
Lecture 18 - IFS Algorithms |
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Chaos, Fractals and Dynamic Systems |
Lecture 19 - Fractal Image Compression |
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Chaos, Fractals and Dynamic Systems |
Lecture 20 - Stable and Unstable Manifolds |
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Chaos, Fractals and Dynamic Systems |
Lecture 21 - Boundary Crisis and Interior Crisis |
| Link |
Chaos, Fractals and Dynamic Systems |
Lecture 22 - Statistics of Chaotic Attractors |
| Link |
Chaos, Fractals and Dynamic Systems |
Lecture 23 - Matrix Times Circle : Ellipse |
| Link |
Chaos, Fractals and Dynamic Systems |
Lecture 24 - Lyapunov Exponent |
| Link |
Chaos, Fractals and Dynamic Systems |
Lecture 25 - Frequency Spectra of Orbits |
| Link |
Chaos, Fractals and Dynamic Systems |
Lecture 26 - Dynamics on a Torus |
| Link |
Chaos, Fractals and Dynamic Systems |
Lecture 27 - Dynamics on a Torus |
| Link |
Chaos, Fractals and Dynamic Systems |
Lecture 28 - Analysis of Chaotic Time Series |
| Link |
Chaos, Fractals and Dynamic Systems |
Lecture 29 - Analysis of Chaotic Time Series |
| Link |
Chaos, Fractals and Dynamic Systems |
Lecture 30 - Lyapunou Function and Centre Manifold Theory |
| Link |
Chaos, Fractals and Dynamic Systems |
Lecture 31 - Non-Smooth Bifurcations |
| Link |
Chaos, Fractals and Dynamic Systems |
Lecture 32 - Non-Smooth Bifurcations |
| Link |
Chaos, Fractals and Dynamic Systems |
Lecture 33 - Normal from for Piecewise Smooth 2D Maps |
| Link |
Chaos, Fractals and Dynamic Systems |
Lecture 34 - Bifurcations in Piecewise Linear 2D Maps |
| Link |
Chaos, Fractals and Dynamic Systems |
Lecture 35 - Bifurcations in Piecewise Linear 2D Maps |
| Link |
Chaos, Fractals and Dynamic Systems |
Lecture 36 - Multiple Attractor Bifurcation and Dangerous |
| Link |
Chaos, Fractals and Dynamic Systems |
Lecture 37 - Dynamics of Discontinuous Maps |
| Link |
Chaos, Fractals and Dynamic Systems |
Lecture 38 - Introduction to Floquet Theory |
| Link |
Chaos, Fractals and Dynamic Systems |
Lecture 39 - The Monodromy Matrix and the Saltation Matrix |
| Link |
Chaos, Fractals and Dynamic Systems |
Lecture 40 - Control of Chaos |
| Link |
Digital Signal Processing |
Lecture 1 - Discrete Time Signal and System |
| Link |
Digital Signal Processing |
Lecture 2 - Discrete Time Signal and System (Continued...) |
| Link |
Digital Signal Processing |
Lecture 3 - Discrete Time Signal and System (Continued...) |
| Link |
Digital Signal Processing |
Lecture 4 - Frequency Domain Representation of Discrete Signals |
| Link |
Digital Signal Processing |
Lecture 5 - Z-Transform |
| Link |
Digital Signal Processing |
Lecture 6 - Z-Transform (Continued...) |
| Link |
Digital Signal Processing |
Lecture 7 - Solution of Difference Equation |
| Link |
Digital Signal Processing |
Lecture 8 - Tutorial on Discrete Time Signals & Their Transforms |
| Link |
Digital Signal Processing |
Lecture 9 - Relation Between Discrete Time and Continuous Signals |
| Link |
Digital Signal Processing |
Lecture 10 - Discrete Fourier Transform (DFT) |
| Link |
Digital Signal Processing |
Lecture 11 - Discrete Fourier Transform (DFT) (Continued...) |
| Link |
Digital Signal Processing |
Lecture 12 - Discrete Fourier Transform (DFT) (Continued...) |
| Link |
Digital Signal Processing |
Lecture 13 - State Space Representation |
| Link |
Digital Signal Processing |
Lecture 14 - Filters Introduction |
| Link |
Digital Signal Processing |
Lecture 15 - FIR Filters |
| Link |
Digital Signal Processing |
Lecture 16 - FIR Filters (Continued...) Introduction to IIR Filters |
| Link |
Digital Signal Processing |
Lecture 17 - IIR Filters (Continued...) |
| Link |
Digital Signal Processing |
Lecture 18 - IIR Filters (Continued...) |
| Link |
Digital Signal Processing |
Lecture 19 - IIR Filters (Continued...) |
| Link |
Digital Signal Processing |
Lecture 20 - Tutorial & Introduction to Computer Aided Design of Filters |
| Link |
Digital Signal Processing |
Lecture 21 - Computer Aided Design of Filters |
| Link |
Digital Signal Processing |
Lecture 22 - FFT and Computer Aided Design of Filters |
| Link |
Digital Signal Processing |
Lecture 23 - Introduction to Lattice Filter |
| Link |
Digital Signal Processing |
Lecture 24 - Lattice Filter (Continued...) |
| Link |
Digital Signal Processing |
Lecture 25 - Effects of Quantization |
| Link |
Digital Signal Processing |
Lecture 26 - Effects of Quantization (Continued...) |
| Link |
Digital Signal Processing |
Lecture 27 - Effects of Quantization (Continued...) |
| Link |
Digital Signal Processing |
Lecture 28 - Effects of Quantization (Continued...) |
| Link |
Digital Signal Processing |
Lecture 29 - Random Signals |
| Link |
Digital Signal Processing |
Lecture 30 - Relationship Between Real and Imaginary Parts of DTFT |
| Link |
Digital Signal Processing |
Lecture 31 - Relationship Between Real and Imaginary Parts of DTFT |
| Link |
Digital Signal Processing |
Lecture 32 - Relationship Between Real and Imaginary Parts of DTFT |
| Link |
Digital Signal Processing |
Lecture 33 - Multi rate Signal Processing |
| Link |
Digital Signal Processing |
Lecture 34 - Multi rate Signal Processing (Continued...) |
| Link |
Digital Signal Processing |
Lecture 35 - Polyphase Decomposition |
| Link |
Dynamics of Physical Systems |
Lecture 1 - Introduction to System Elements |
| Link |
Dynamics of Physical Systems |
Lecture 2 - Newton's Method and Constraints |
| Link |
Dynamics of Physical Systems |
Lecture 3 - Derivation of the Lagrangian Equation |
| Link |
Dynamics of Physical Systems |
Lecture 4 - Using the lagrangian Equation to Obtain Differential Equations (Part-I) |
| Link |
Dynamics of Physical Systems |
Lecture 5 - Using the lagrangian Equation to Obtain Differential Equations (Part-II) |
| Link |
Dynamics of Physical Systems |
Lecture 6 - Using the lagrangian Equation to Obtain Differential Equations (Part-III) |
| Link |
Dynamics of Physical Systems |
Lecture 7 - Using the lagrangian Equation to Obtain Differential Equations (Part-IV) |
| Link |
Dynamics of Physical Systems |
Lecture 8 - Obtaining First Order Equations |
| Link |
Dynamics of Physical Systems |
Lecture 9 - Application of the Hamiltonian Method |
| Link |
Dynamics of Physical Systems |
Lecture 10 - Obtaining Differential Equations Using Kirchoff's Laws |
| Link |
Dynamics of Physical Systems |
Lecture 11 - The Graph Theory Approach for Electrical Circuits (Part-I) |
| Link |
Dynamics of Physical Systems |
Lecture 12 - The Graph Theory Approach for Electrical Circuits (Part-II) |
| Link |
Dynamics of Physical Systems |
Lecture 13 - The Bond Graph Approach - I |
| Link |
Dynamics of Physical Systems |
Lecture 14 - The Bond Graph Approach - II |
| Link |
Dynamics of Physical Systems |
Lecture 15 - The Bond Graph Approach - III |
| Link |
Dynamics of Physical Systems |
Lecture 16 - The Bond Graph Approach - IV |
| Link |
Dynamics of Physical Systems |
Lecture 17 - The Bond Graph Approach - V |
| Link |
Dynamics of Physical Systems |
Lecture 18 - The Bond Graph Approach - VI |
| Link |
Dynamics of Physical Systems |
Lecture 19 - The Bond Graph Approach - VII |
| Link |
Dynamics of Physical Systems |
Lecture 20 - Numerical Solution of Differential Equations |
| Link |
Dynamics of Physical Systems |
Lecture 21 - Dynamics in the State Space |
| Link |
Dynamics of Physical Systems |
Lecture 22 - Vector Field Around Equilibrium Points - I |
| Link |
Dynamics of Physical Systems |
Lecture 23 - Vector Field Around Equilibrium Points - II |
| Link |
Dynamics of Physical Systems |
Lecture 24 - Vector Field Around Equilibrium Points - III |
| Link |
Dynamics of Physical Systems |
Lecture 25 - Vector Field Around Equilibrium Points - IV |
| Link |
Dynamics of Physical Systems |
Lecture 26 - High Dimensional Linear Systems |
| Link |
Dynamics of Physical Systems |
Lecture 27 - Linear Systems with External Input - I |
| Link |
Dynamics of Physical Systems |
Lecture 28 - Linear Systems with External Input - II |
| Link |
Dynamics of Physical Systems |
Lecture 29 - Linear Systems with External Input - III |
| Link |
Dynamics of Physical Systems |
Lecture 30 - Dynamics of Nonlinear Systems - I |
| Link |
Dynamics of Physical Systems |
Lecture 31 - Dynamics of Nonlinear Systems - II |
| Link |
Dynamics of Physical Systems |
Lecture 32 - Dynamics of Nonlinear Systems - III |
| Link |
Dynamics of Physical Systems |
Lecture 33 - Discrete-Time Dynamical Systems - I |
| Link |
Dynamics of Physical Systems |
Lecture 34 - Discrete-Time Dynamical Systems - II |
| Link |
Energy Resources and Technology |
Lecture 1 - Thermodynamics: Fundamentals Of Energy - Energy Resources & Technology |
| Link |
Energy Resources and Technology |
Lecture 2 - Quality of Energy |
| Link |
Energy Resources and Technology |
Lecture 3 - Complete Cycle Analysis of Fossil Fuels |
| Link |
Energy Resources and Technology |
Lecture 4 - Energy in Transportation |
| Link |
Energy Resources and Technology |
Lecture 5 - Other Fossil Fuels |
| Link |
Energy Resources and Technology |
Lecture 6 - Energy Economics : Input-Output Analysis |
| Link |
Energy Resources and Technology |
Lecture 7 - Energy Economics : Input-Output Analysis |
| Link |
Energy Resources and Technology |
Lecture 8 - Thermal Power Plants |
| Link |
Energy Resources and Technology |
Lecture 9 - Thermal Power Plants |
| Link |
Energy Resources and Technology |
Lecture 10 - Hydroelectric Power |
| Link |
Energy Resources and Technology |
Lecture 11 - Hydroelectric Power |
| Link |
Energy Resources and Technology |
Lecture 12 - Nuclear Power Generation |
| Link |
Energy Resources and Technology |
Lecture 13 - Nuclear Fusion Reactors |
| Link |
Energy Resources and Technology |
Lecture 14 - Environmental Effects of Conventional Power |
| Link |
Energy Resources and Technology |
Lecture 15 - Solar Thermal Energy Conversion |
| Link |
Energy Resources and Technology |
Lecture 16 - Solar Concentrating Collectors |
| Link |
Energy Resources and Technology |
Lecture 17 - Photovoltaic Power Generation |
| Link |
Energy Resources and Technology |
Lecture 18 - Photovoltaic Power Generation (Continued.) |
| Link |
Energy Resources and Technology |
Lecture 19 - Photovoltaic Power Generation (Continued.) |
| Link |
Energy Resources and Technology |
Lecture 20 - Photovoltaic Power Generation (Continued.) |
| Link |
Energy Resources and Technology |
Lecture 21 - Wind Energy - I |
| Link |
Energy Resources and Technology |
Lecture 22 - Wind Energy - II |
| Link |
Energy Resources and Technology |
Lecture 23 - Wind Energy - III |
| Link |
Energy Resources and Technology |
Lecture 24 - Wind Energy - IV |
| Link |
Energy Resources and Technology |
Lecture 25 - Wind Energy - V |
| Link |
Energy Resources and Technology |
Lecture 26 - Wind Energy - VI |
| Link |
Energy Resources and Technology |
Lecture 27 - Wind Electrical Conversion - I |
| Link |
Energy Resources and Technology |
Lecture 28 - Wind Electrical Conversion - II |
| Link |
Energy Resources and Technology |
Lecture 29 - Wind Electrical Conversion - III |
| Link |
Energy Resources and Technology |
Lecture 30 - Tidal Energy |
| Link |
Energy Resources and Technology |
Lecture 31 - Tidal Energy |
| Link |
Energy Resources and Technology |
Lecture 32 - Tidal Energy |
| Link |
Energy Resources and Technology |
Lecture 33 - Ocean Thermal Energy Conversion |
| Link |
Energy Resources and Technology |
Lecture 34 - Solar Pond and Wave Power |
| Link |
Energy Resources and Technology |
Lecture 35 - Geothermal Energy |
| Link |
Energy Resources and Technology |
Lecture 36 - Solar Distillation and Biomass Energy |
| Link |
Energy Resources and Technology |
Lecture 37 - Energy Storage |
| Link |
Energy Resources and Technology |
Lecture 38 - Magneto hydrodynamic Power Generation |
| Link |
Energy Resources and Technology |
Lecture 39 - Magneto hydrodynamic Power Generation |
| Link |
Energy Resources and Technology |
Lecture 40 - Hydrogen Economy |
| Link |
Estimation of Signals and Systems |
Lecture 1 - Introduction |
| Link |
Estimation of Signals and Systems |
Lecture 2 - Probability Theory |
| Link |
Estimation of Signals and Systems |
Lecture 3 - Random Variables |
| Link |
Estimation of Signals and Systems |
Lecture 4 - Function of Random Variable Joint Density |
| Link |
Estimation of Signals and Systems |
Lecture 5 - Mean and Variance |
| Link |
Estimation of Signals and Systems |
Lecture 6 - Random Vectors Random Processes |
| Link |
Estimation of Signals and Systems |
Lecture 7 - Random Processes and Linear Systems |
| Link |
Estimation of Signals and Systems |
Lecture 8 - Some Numerical Problems |
| Link |
Estimation of Signals and Systems |
Lecture 9 - Miscellaneous Topics on Random Process |
| Link |
Estimation of Signals and Systems |
Lecture 10 - Linear Signal Models |
| Link |
Estimation of Signals and Systems |
Lecture 11 - Linear Mean Sq.Error Estimation |
| Link |
Estimation of Signals and Systems |
Lecture 12 - Auto Correlation and Power Spectrum Estimation |
| Link |
Estimation of Signals and Systems |
Lecture 13 - Z-Transform Revisited Eigen Vectors/Values |
| Link |
Estimation of Signals and Systems |
Lecture 14 - The Concept of Innovation |
| Link |
Estimation of Signals and Systems |
Lecture 15 - Last Squares Estimation Optimal IIR Filters |
| Link |
Estimation of Signals and Systems |
Lecture 16 - Introduction to Adaptive Filters |
| Link |
Estimation of Signals and Systems |
Lecture 17 - State Estimation |
| Link |
Estimation of Signals and Systems |
Lecture 18 - Kalman Filter-Model and Derivation |
| Link |
Estimation of Signals and Systems |
Lecture 19 - Kalman Filter-Derivation (Continued...) |
| Link |
Estimation of Signals and Systems |
Lecture 20 - Estimator Properties |
| Link |
Estimation of Signals and Systems |
Lecture 21 - The Time-Invariant Kalman Filter |
| Link |
Estimation of Signals and Systems |
Lecture 22 - Kalman Filter-Case Study |
| Link |
Estimation of Signals and Systems |
Lecture 23 - System identification Introductory Concepts |
| Link |
Estimation of Signals and Systems |
Lecture 24 - Linear Regression-Recursive Least Squares |
| Link |
Estimation of Signals and Systems |
Lecture 25 - Variants of LSE |
| Link |
Estimation of Signals and Systems |
Lecture 26 - Least Square Estimation |
| Link |
Estimation of Signals and Systems |
Lecture 27 - Model Order Selection Residual Tests |
| Link |
Estimation of Signals and Systems |
Lecture 28 - Practical Issues in Identification |
| Link |
Estimation of Signals and Systems |
Lecture 29 - Estimation Problems in Instrumentation and Control |
| Link |
Estimation of Signals and Systems |
Lecture 30 - Conclusion |
| Link |
Illumination Engineering |
Lecture 1 - Introduction to Illumination Engineering |
| Link |
Illumination Engineering |
Lecture 2 - Instructional Objectives |
| Link |
Illumination Engineering |
Lecture 3 - Eye and Vision - I |
| Link |
Illumination Engineering |
Lecture 4 - Eye and Vision - II |
| Link |
Illumination Engineering |
Lecture 5 - Laws of Illumination |
| Link |
Illumination Engineering |
Lecture 6 - Photometry |
| Link |
Illumination Engineering |
Lecture 7 - Incandescent Lamps |
| Link |
Illumination Engineering |
Lecture 8 - Discharge Lamps - I |
| Link |
Illumination Engineering |
Lecture 9 - Discharge Lamps - II |
| Link |
Illumination Engineering |
Lecture 10 - Discharge Lamps - III |
| Link |
Illumination Engineering |
Lecture 11 - Illumination Systems - I |
| Link |
Illumination Engineering |
Lecture 12 - Illumination Systems - II |
| Link |
Illumination Engineering |
Lecture 13 - Glare |
| Link |
Illumination Engineering |
Lecture 14 - Color |
| Link |
Illumination Engineering |
Lecture 15 - Interior Lighting |
| Link |
Illumination Engineering |
Lecture 16 - Sports Lighting |
| Link |
Illumination Engineering |
Lecture 17 - Road Lighting |
| Link |
Illumination Engineering |
Lecture 18 - Lighting Calculations |
| Link |
Illumination Engineering |
Lecture 19 - Lighting Applications |
| Link |
Illumination Engineering |
Lecture 20 - Conclusions on Illumination Engineering |
| Link |
Industrial Automation and Control |
Lecture 1 - Introduction |
| Link |
Industrial Automation and Control |
Lecture 2 - Architecture of Industrial Automation Systems |
| Link |
Industrial Automation and Control |
Lecture 3 - Measurement Systems Characteristics |
| Link |
Industrial Automation and Control |
Lecture 4 - Temperature Measurement |
| Link |
Industrial Automation and Control |
Lecture 5 - Pressure, Force and Torque Sensors |
| Link |
Industrial Automation and Control |
Lecture 6 - Motion Sensing |
| Link |
Industrial Automation and Control |
Lecture 7 - Flow Measurement |
| Link |
Industrial Automation and Control |
Lecture 8 - Signal Conditioning |
| Link |
Industrial Automation and Control |
Lecture 9 - Signal Conditioning (Continued.) |
| Link |
Industrial Automation and Control |
Lecture 10 - Data Acquisition Systems |
| Link |
Industrial Automation and Control |
Lecture 11 - Introduction to Automatic Control |
| Link |
Industrial Automation and Control |
Lecture 12 - P-I-D Control |
| Link |
Industrial Automation and Control |
Lecture 13 - PID Control Tuning |
| Link |
Industrial Automation and Control |
Lecture 14 - Feedforward Control Ratio Control |
| Link |
Industrial Automation and Control |
Lecture 15 - Time Delay Systems and Inverse Response Systems |
| Link |
Industrial Automation and Control |
Lecture 16 - Special Control Structures |
| Link |
Industrial Automation and Control |
Lecture 17 - Concluding Lesson on Process Control |
| Link |
Industrial Automation and Control |
Lecture 18 - Introduction to Sequence Control, PLC, RLL |
| Link |
Industrial Automation and Control |
Lecture 19 - Sequence Control. Scan Cycle,Simple RLL Programs |
| Link |
Industrial Automation and Control |
Lecture 20 - Sequence Control. More RLL Elements, RLL Syntax |
| Link |
Industrial Automation and Control |
Lecture 21 - A Structured Design Approach to Sequence |
| Link |
Industrial Automation and Control |
Lecture 22 - PLC Hardware Environment |
| Link |
Industrial Automation and Control |
Lecture 23 - Introduction To CNC Machines |
| Link |
Industrial Automation and Control |
Lecture 24 - Contour generation and Motion Control |
| Link |
Industrial Automation and Control |
Lecture 25 - Flow Control Valves |
| Link |
Industrial Automation and Control |
Lecture 26 - Hydraulic Control Systems - I |
| Link |
Industrial Automation and Control |
Lecture 27 - Hydraulic Control Systems - II |
| Link |
Industrial Automation and Control |
Lecture 28 - Industrial Hydraulic Circuit |
| Link |
Industrial Automation and Control |
Lecture 29 - Pneumatic Control Systems - I |
| Link |
Industrial Automation and Control |
Lecture 30 - Pneumatic Systems - II |
| Link |
Industrial Automation and Control |
Lecture 31 - Energy Savings with Variable Speed Drives |
| Link |
Industrial Automation and Control |
Lecture 32 - DC Motor Drives |
| Link |
Industrial Automation and Control |
Lecture 33 - DC and BLDC Servo Drives |
| Link |
Industrial Automation and Control |
Lecture 34 - Induction Motor Drives |
| Link |
Industrial Automation and Control |
Lecture 35 - Step Motor Drives BLDC Drives |
| Link |
Industrial Automation and Control |
Lecture 36 - Embedded Systems |
| Link |
Industrial Automation and Control |
Lecture 37 - The Fieldbus Network - I |
| Link |
Industrial Automation and Control |
Lecture 38 - The Fieldbus Network - II |
| Link |
Industrial Automation and Control |
Lecture 39 - Higher Level Automation Systems |
| Link |
Industrial Automation and Control |
Lecture 40 - Course Review and Conclusion |
| Link |
Industrial Instrumentation |
Lecture 1 - Introduction to Industrial Instrumentation |
| Link |
Industrial Instrumentation |
Lecture 2 - Dynamic Characteristics |
| Link |
Industrial Instrumentation |
Lecture 3 - Dynamic Characteristics (Continued.) |
| Link |
Industrial Instrumentation |
Lecture 4 - Strain gauge |
| Link |
Industrial Instrumentation |
Lecture 5 - Load cell |
| Link |
Industrial Instrumentation |
Lecture 6 - Torque Measurement |
| Link |
Industrial Instrumentation |
Lecture 7 - Thermistor |
| Link |
Industrial Instrumentation |
Lecture 8 - Thermocouples |
| Link |
Industrial Instrumentation |
Lecture 9 - Resistance Temperature Detector |
| Link |
Industrial Instrumentation |
Lecture 10 - LVDT |
| Link |
Industrial Instrumentation |
Lecture 11 - Capacitance Transducers |
| Link |
Industrial Instrumentation |
Lecture 12 - Flowmeter - I |
| Link |
Industrial Instrumentation |
Lecture 13 - Flowmeter - II |
| Link |
Industrial Instrumentation |
Lecture 14 - Flowmeter - III |
| Link |
Industrial Instrumentation |
Lecture 15 - Flowmeter - IV |
| Link |
Industrial Instrumentation |
Lecture 16 - Flowmeter - V |
| Link |
Industrial Instrumentation |
Lecture 17 - Problems on Temperature Sensors |
| Link |
Industrial Instrumentation |
Lecture 18 - Pressure Sensors |
| Link |
Industrial Instrumentation |
Lecture 19 - Low Pressure Measurement |
| Link |
Industrial Instrumentation |
Lecture 20 - pH and Viscosity Measurement |
| Link |
Industrial Instrumentation |
Lecture 21 - Problem and Solutions On Industrial Instrumentation |
| Link |
Industrial Instrumentation |
Lecture 22 - Signal Conditioning Circuits - I |
| Link |
Industrial Instrumentation |
Lecture 23 - Signal Conditioning Circuits - II |
| Link |
Industrial Instrumentation |
Lecture 24 - Piezoelectric Sensors |
| Link |
Industrial Instrumentation |
Lecture 25 - Ultrasonic Sensors |
| Link |
Industrial Instrumentation |
Lecture 26 - Nucleonic Instrumentation |
| Link |
Industrial Instrumentation |
Lecture 27 - Measurement Of Magnetic Field |
| Link |
Industrial Instrumentation |
Lecture 28 - Optoelectronic Sensor - I |
| Link |
Industrial Instrumentation |
Lecture 29 - Optoelectronic Sensor - II |
| Link |
Industrial Instrumentation |
Lecture 30 - Synchro |
| Link |
Industrial Instrumentation |
Lecture 31 - Dissolved Oxygen Sensors - I |
| Link |
Industrial Instrumentation |
Lecture 32 - Dissolved Oxygen Sensors - II |
| Link |
Industrial Instrumentation |
Lecture 33 - Flapper - Nozzle |
| Link |
Industrial Instrumentation |
Lecture 34 - Smart Sensors |
| Link |
Industrial Instrumentation |
Lecture 35 - Chromatography - I |
| Link |
Industrial Instrumentation |
Lecture 36 - Chromatography - II |
| Link |
Industrial Instrumentation |
Lecture 37 - Pollution Measurement |
| Link |
Industrial Instrumentation |
Lecture 38 - Control Valve - I |
| Link |
Industrial Instrumentation |
Lecture 39 - Control Valve - II |
| Link |
Industrial Instrumentation |
Lecture 40 - Signal Conditioning Integrated Circuits |
| Link |
Networks Signals and Systems |
Lecture 1 - Introduction to Network Elements and Sources |
| Link |
Networks Signals and Systems |
Lecture 2 - Introduction to Linearity and Nonlinearity |
| Link |
Networks Signals and Systems |
Lecture 3 - Distributed & Lumped Parameters 2-port Networks |
| Link |
Networks Signals and Systems |
Lecture 4 - Two-port Parameters Short Circuit,Open Circuit |
| Link |
Networks Signals and Systems |
Lecture 5 - Tutorial |
| Link |
Networks Signals and Systems |
Lecture 6 - Locus Diagram - Introduction to Signals |
| Link |
Networks Signals and Systems |
Lecture 7 - Signals (Continued.) Laplace Transforms |
| Link |
Networks Signals and Systems |
Lecture 8 - Laplace Transform (Continued.) |
| Link |
Networks Signals and Systems |
Lecture 9 - Tutorial on Laplace Transform |
| Link |
Networks Signals and Systems |
Lecture 10 - Frequency Response Bode Plot |
| Link |
Networks Signals and Systems |
Lecture 11 - Bode Plot (Continued.) |
| Link |
Networks Signals and Systems |
Lecture 12 - Bode Plot (Continued.) - Poles & Zeros |
| Link |
Networks Signals and Systems |
Lecture 13 - Driving Point Immittance Functions - Realisability Conditions |
| Link |
Networks Signals and Systems |
Lecture 14 - Two - Element Synthesis |
| Link |
Networks Signals and Systems |
Lecture 15 - Two - Element Synthesis (Continued.) |
| Link |
Networks Signals and Systems |
Lecture 16 - Tutorial |
| Link |
Networks Signals and Systems |
Lecture 17 - Tutorial |
| Link |
Networks Signals and Systems |
Lecture 18 - Graph Theory |
| Link |
Networks Signals and Systems |
Lecture 19 - Graph Theory (Continued.) |
| Link |
Networks Signals and Systems |
Lecture 20 - Graph Theory (Continued.) |
| Link |
Networks Signals and Systems |
Lecture 21 - Graph Theory (Continued.) |
| Link |
Networks Signals and Systems |
Lecture 22 - Image Impedance, Iterative Impedance |
| Link |
Networks Signals and Systems |
Lecture 23 - Image Impedance, Iterative Impedance |
| Link |
Networks Signals and Systems |
Lecture 24 - Characteristic Impedance and Design of Filters |
| Link |
Networks Signals and Systems |
Lecture 25 - Analysis of Resistive Networks Computer Aided |
| Link |
Networks Signals and Systems |
Lecture 26 - R-L-C Two-Terminal Network |
| Link |
Networks Signals and Systems |
Lecture 27 - Parts of Network Functions |
| Link |
Networks Signals and Systems |
Lecture 28 - Parts of Network Functions (Continued.) |
| Link |
Networks Signals and Systems |
Lecture 29 - Tutorial |
| Link |
Networks Signals and Systems |
Lecture 30 - Tutorial (Continued.) |
| Link |
Networks Signals and Systems |
Lecture 31 - Tutorial |
| Link |
Networks Signals and Systems |
Lecture 32 - Synthesis of 2-port Network |
| Link |
Networks Signals and Systems |
Lecture 33 - Synthesis of 2-port Network (Continued.) |
| Link |
Networks Signals and Systems |
Lecture 34 - Synthesis of 2-port Network (Continued.) |
| Link |
Networks Signals and Systems |
Lecture 35 - Fourier Series |
| Link |
Networks Signals and Systems |
Lecture 36 - Fourier Series (Continued.) |
| Link |
Power System Analysis |
Lecture 1 - Introduction to Power system analysis |
| Link |
Power System Analysis |
Lecture 2 - Introduction to Single Line Diagram |
| Link |
Power System Analysis |
Lecture 3 - Transmission Line Parameters |
| Link |
Power System Analysis |
Lecture 4 - Inductance Calculation (Three Phase) |
| Link |
Power System Analysis |
Lecture 5 - Transmission Line Capacitance |
| Link |
Power System Analysis |
Lecture 6 - Transmission Line Capacitance (Continued..) |
| Link |
Power System Analysis |
Lecture 7 - Transmission Line Modeling |
| Link |
Power System Analysis |
Lecture 8 - Transmission Line Modeling Long Line |
| Link |
Power System Analysis |
Lecture 9 - Transmission Line Steady State Operation |
| Link |
Power System Analysis |
Lecture 10 - Transmission Line Steady State Control Voltage |
| Link |
Power System Analysis |
Lecture 11 - Transmission System A Review |
| Link |
Power System Analysis |
Lecture 12 - Transformer Model |
| Link |
Power System Analysis |
Lecture 13 - Synchronous Machine Model |
| Link |
Power System Analysis |
Lecture 14 - Synchronous Machine Model |
| Link |
Power System Analysis |
Lecture 15 - Load Model |
| Link |
Power System Analysis |
Lecture 16 - Power Flow - I |
| Link |
Power System Analysis |
Lecture 17 - Power Flow - II |
| Link |
Power System Analysis |
Lecture 18 - Power Flow - III |
| Link |
Power System Analysis |
Lecture 19 - Power Flow - IV |
| Link |
Power System Analysis |
Lecture 20 - Power Flow - V |
| Link |
Power System Analysis |
Lecture 21 - Power Flow - VI |
| Link |
Power System Analysis |
Lecture 22 - Power Flow - VII |
| Link |
Power System Analysis |
Lecture 23 - Review of Power System Component Models |
| Link |
Power System Analysis |
Lecture 24 - Review of Power Flow Study |
| Link |
Power System Analysis |
Lecture 25 - Short Circuit Analysis |
| Link |
Power System Analysis |
Lecture 26 - Symmetrical Component Analysis |
| Link |
Power System Analysis |
Lecture 27 - Sequence Networks |
| Link |
Power System Analysis |
Lecture 28 - Unbalanced Fault Analysis |
| Link |
Power System Analysis |
Lecture 29 - Unbalanced Fault Analysis |
| Link |
Power System Analysis |
Lecture 30 - Fault Analysis for Large power Systems |
| Link |
Power System Analysis |
Lecture 31 - Bus Impedance Matrix |
| Link |
Power System Analysis |
Lecture 32 - Asymmetrical Fault Analysis Using Z - Bus |
| Link |
Power System Analysis |
Lecture 33 - Power System Stability - I |
| Link |
Power System Analysis |
Lecture 34 - Power System Stability - II |
| Link |
Power System Analysis |
Lecture 35 - Power System Stability - III |
| Link |
Power System Analysis |
Lecture 36 - Power System Stability - IV |
| Link |
Power System Analysis |
Lecture 37 - Power System Stability - V |
| Link |
Power System Analysis |
Lecture 38 - Power System Stability - VI |
| Link |
Power System Analysis |
Lecture 39 - Power System Stability - VII |
| Link |
Power System Analysis |
Lecture 40 - Power System Stability - VIII |
| Link |
NOC:Industrial Automation and Control |
Lecture 1 - Introduction |
| Link |
NOC:Industrial Automation and Control |
Lecture 2 - Introduction (Continued...) |
| Link |
NOC:Industrial Automation and Control |
Lecture 3 - Architecture of Industrial Automation Systems |
| Link |
NOC:Industrial Automation and Control |
Lecture 4 - Architecture of Industrial Automation Systems (Continued...) |
| Link |
NOC:Industrial Automation and Control |
Lecture 5 - Measurement Systems Characteristics |
| Link |
NOC:Industrial Automation and Control |
Lecture 6 - Measurement Systems Characteristics (Continued...) |
| Link |
NOC:Industrial Automation and Control |
Lecture 7 - Data Acquisition Systems |
| Link |
NOC:Industrial Automation and Control |
Lecture 8 - Data Acquisition Systems (Continued...) |
| Link |
NOC:Industrial Automation and Control |
Lecture 9 - Introduction to Automatic Control |
| Link |
NOC:Industrial Automation and Control |
Lecture 10 - Introduction to Automatic Control (Continued...) |
| Link |
NOC:Industrial Automation and Control |
Lecture 11 - P-I-D Control |
| Link |
NOC:Industrial Automation and Control |
Lecture 12 - P-I-D Control (Continued...) |
| Link |
NOC:Industrial Automation and Control |
Lecture 13 - PID Controller Tuning |
| Link |
NOC:Industrial Automation and Control |
Lecture 14 - PID Controller Tuning (Continued...) |
| Link |
NOC:Industrial Automation and Control |
Lecture 15 - Feedforward Control Ratio Control |
| Link |
NOC:Industrial Automation and Control |
Lecture 16 - Feedforward Control Ratio Control (Continued...) |
| Link |
NOC:Industrial Automation and Control |
Lecture 17 - Time Delay Systems and Inverse Response Systems |
| Link |
NOC:Industrial Automation and Control |
Lecture 18 - Time Delay Systems and Inverse Response Systems (Continued...) |
| Link |
NOC:Industrial Automation and Control |
Lecture 19 - Special Control Structures |
| Link |
NOC:Industrial Automation and Control |
Lecture 20 - Special Control Structures (Continued...) |
| Link |
NOC:Industrial Automation and Control |
Lecture 21 - Concluding Lesson on Process Control (Self-study) |
| Link |
NOC:Industrial Automation and Control |
Lecture 22 - Introduction to Sequence Control, PLC, RLL |
| Link |
NOC:Industrial Automation and Control |
Lecture 23 - Introduction to Sequence Control, PLC, RLL (Continued...) |
| Link |
NOC:Industrial Automation and Control |
Lecture 24 - Sequence Control, Scan Cycle, Simple RLL Programs |
| Link |
NOC:Industrial Automation and Control |
Lecture 25 - Sequence Control, Scan Cycle, Simple RLL Programs (Continued...) |
| Link |
NOC:Industrial Automation and Control |
Lecture 26 - Sequence Control, More RLL Elements, RLL Syntax |
| Link |
NOC:Industrial Automation and Control |
Lecture 27 - Sequence Control, More RLL Elements, RLL Syntax (Continued...) |
| Link |
NOC:Industrial Automation and Control |
Lecture 28 - A Structured Design Approach to Sequence Control |
| Link |
NOC:Industrial Automation and Control |
Lecture 29 - A Structured Design Approach to Sequence Control (Continued...) |
| Link |
NOC:Industrial Automation and Control |
Lecture 30 - PLC Hardware Environment |
| Link |
NOC:Industrial Automation and Control |
Lecture 31 - PLC Hardware Environment (Continued...) |
| Link |
NOC:Industrial Automation and Control |
Lecture 32 - Flow Control Valves |
| Link |
NOC:Industrial Automation and Control |
Lecture 33 - Flow Control Valves (Continued...) |
| Link |
NOC:Industrial Automation and Control |
Lecture 34 - Hydraulic Control Systems - I |
| Link |
NOC:Industrial Automation and Control |
Lecture 35 - Hydraulic Control Systems - I (Continued...) |
| Link |
NOC:Industrial Automation and Control |
Lecture 36 - Hydraulic Control Systems - II |
| Link |
NOC:Industrial Automation and Control |
Lecture 37 - Hydraulic Control Systems - II (Continued...) |
| Link |
NOC:Industrial Automation and Control |
Lecture 38 - Industrial Hydraulic Circuit |
| Link |
NOC:Industrial Automation and Control |
Lecture 39 - Industrial Hydraulic Circuit (Continued...) |
| Link |
NOC:Industrial Automation and Control |
Lecture 40 - Pneumatic Control Systems - I |
| Link |
NOC:Industrial Automation and Control |
Lecture 41 - Pneumatic Control Systems - I (Continued...) |
| Link |
NOC:Industrial Automation and Control |
Lecture 42 - Pneumatic Systems - II |
| Link |
NOC:Industrial Automation and Control |
Lecture 43 - Pneumatic Systems - II (Continued...) |
| Link |
NOC:Industrial Automation and Control |
Lecture 44 - Energy Savings with Variable Speed Drives |
| Link |
NOC:Industrial Automation and Control |
Lecture 45 - Energy Savings with Variable Speed Drives (Continued...) |
| Link |
NOC:Industrial Automation and Control |
Lecture 46 - Introduction To CNC Machines |
| Link |
NOC:Industrial Automation and Control |
Lecture 47 - Introduction To CNC Machines |
| Link |
NOC:Industrial Automation and Control |
Lecture 48 - The Fieldbus Network - I |
| Link |
NOC:Industrial Automation and Control |
Lecture 49 - The Fieldbus Network - I (Continued...) |
| Link |
NOC:Industrial Automation and Control |
Lecture 50 - Higher Level Automation Systems |
| Link |
NOC:Industrial Automation and Control |
Lecture 51 - Higher Level Automation Systems (Continued...) |
| Link |
NOC:Industrial Automation and Control |
Lecture 52 - Course Review and Conclusion (Self Study) |
| Link |
NOC:Medical Image Analysis |
Lecture 1 - Introduction to Medical Image Analysis |
| Link |
NOC:Medical Image Analysis |
Lecture 2 - X Ray and CT Imaging |
| Link |
NOC:Medical Image Analysis |
Lecture 3 - Magnetic Resonance Imaging |
| Link |
NOC:Medical Image Analysis |
Lecture 4 - Ultrasound Imaging |
| Link |
NOC:Medical Image Analysis |
Lecture 5 - Optical Microscopy and Molecular Imaging |
| Link |
NOC:Medical Image Analysis |
Lecture 6 - Texture in Medical Images |
| Link |
NOC:Medical Image Analysis |
Lecture 7 - Region Growing and Clustering |
| Link |
NOC:Medical Image Analysis |
Lecture 8 - Random Walks for Segmentation |
| Link |
NOC:Medical Image Analysis |
Lecture 9 - Active Contours for Segmentation |
| Link |
NOC:Medical Image Analysis |
Lecture 10 - Systematic Evaluation and Validation |
| Link |
NOC:Medical Image Analysis |
Lecture 11 - Decision Trees for Segmentation and Classification |
| Link |
NOC:Medical Image Analysis |
Lecture 12 - Random Forests for Segmentation and Classification |
| Link |
NOC:Medical Image Analysis |
Lecture 13 - Neural Networks for Segmentation and Classification |
| Link |
NOC:Medical Image Analysis |
Lecture 14 - Deep Learning for Medical Image Analysis |
| Link |
NOC:Medical Image Analysis |
Lecture 15 - Deep Learning for Medical Image Analysis (Continued...) |
| Link |
NOC:Medical Image Analysis |
Lecture 16 - Retinal Vessel Segmentation |
| Link |
NOC:Medical Image Analysis |
Lecture 17 - Vessel Segmentation in Computed Tomography Scan of Lungs |
| Link |
NOC:Medical Image Analysis |
Lecture 18 |
| Link |
NOC:Medical Image Analysis |
Lecture 19 - Tissue Characterization in Ultrasound |
| Link |
NOC:Medical Image Analysis |
Lecture 20 |
| Link |
NOC:Biomedical Signal Processing |
Lecture 1 - Motivation |
| Link |
NOC:Biomedical Signal Processing |
Lecture 2 - Preliminaries |
| Link |
NOC:Biomedical Signal Processing |
Lecture 3 - Biomedical Signal Origin and Dynamics |
| Link |
NOC:Biomedical Signal Processing |
Lecture 4 - Biomedical Signal Origin and Dynamics (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 5 - Biomedical Signal Origin and Dynamics (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 6 - Biomedical Signal Origin and Dynamics (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 7 - Artifact Removal |
| Link |
NOC:Biomedical Signal Processing |
Lecture 8 - Artifact Removal (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 9 - Artifact Removal (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 10 - Artifact Removal (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 11 - Artifact Removal (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 12 - Artifact Removal (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 13 - Artifact Removal (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 14 - Artifact Removal (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 15 - Artifact Removal (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 16 - Artifact Removal (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 17 - Artifact Removal (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 18 - Event Detection |
| Link |
NOC:Biomedical Signal Processing |
Lecture 19 - Event Detection (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 20 - Event Detection (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 21 - Event Detection (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 22 - Event Detection (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 23 - Event Detection (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 24 - Event Detection (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 25 - Homomorphic Processing |
| Link |
NOC:Biomedical Signal Processing |
Lecture 26 - Homomorphic Processing (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 27 - Waveform Analysis |
| Link |
NOC:Biomedical Signal Processing |
Lecture 28 - Waveform Analysis (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 29 - Waveform Analysis |
| Link |
NOC:Biomedical Signal Processing |
Lecture 30 - Waveform Analysis (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 31 - Waveform Analysis (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 32 - Waveform Analysis (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 33 - Waveform Analysis (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 34 - Frequency Domain Characterisation |
| Link |
NOC:Biomedical Signal Processing |
Lecture 35 - Frequency Domain Characterisation (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 36 - Frequency Domain Characterisation (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 37 - Frequency Domain Characterisation (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 38 - Frequency Domain Characterisation (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 39 - Frequency Domain Characterisation (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 40 - Modelling of Biomedical Systems |
| Link |
NOC:Biomedical Signal Processing |
Lecture 41 - Modelling of Biomedical Systems (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 42 - Modelling of Biomedical Systems (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 43 - Modelling of Biomedical Systems (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 44 - Modelling of Biomedical Systems (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 45 - Modelling of Biomedical Systems (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 46 - Modelling of Biomedical Systems (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 47 - Tutorial - I |
| Link |
NOC:Biomedical Signal Processing |
Lecture 48 - Tutorial - I (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 49 - Tutorial - I (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 50 - Tutorial - II |
| Link |
NOC:Biomedical Signal Processing |
Lecture 51 - Tutorial - II (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 52 - Tutorial - II (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 53 - Tutorial - III |
| Link |
NOC:Biomedical Signal Processing |
Lecture 54 - Tutorial - III (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 55 - Tutorial - III (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 56 - Tutorial - III (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 57 - Tutorial - IV |
| Link |
NOC:Biomedical Signal Processing |
Lecture 58 - Tutorial - IV (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 59 - Tutorial - IV (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 60 - Tutorial - IV (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 61 - Tutorial - IV (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 62 - Tutorial - IV (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 63 - Tutorial - V |
| Link |
NOC:Biomedical Signal Processing |
Lecture 64 - Tutorial - V (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 65 - Tutorial - V (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 66 - Tutorial - V (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 67 - Tutorial - V (Continued...) |
| Link |
NOC:Biomedical Signal Processing |
Lecture 68 - Live Session |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 1 - Introduction |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 2 - Introduction (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 3 - Introduction (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 4 - Basic Computer Organization |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 5 - Basic computer organization |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 6 - Basic Computer Organization |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 7 - 8085 Microprocessors |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 8 - 8085 Microprocessors (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 9 - 8085 Microprocessors (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 10 - 8085 Microprocessors (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 11 - 8085 Microprocessors (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 12 - 8085 Microprocessors (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 13 - 8085 Microprocessors (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 14 - 8085 Microprocessors (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 15 - 8085 Microprocessors (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 16 - 8085 Microprocessors (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 17 - 8085 Microprocessors (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 18 - 8085 Microprocessors (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 19 - 8085 Microprocessors (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 20 - 8085 Microprocessors (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 21 - 8085 Microprocessors (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 22 - 8085 Microprocessors (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 23 - 8051 Microcontroller |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 24 - 8051 Microcontroller (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 25 - 8051Microcontroller (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 26 - 8051 Microcontroller (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 27 - 8051 Microcontroller (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 28 - 8051 Microcontroller (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 29 - 8051 Microcontroller (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 30 - 8051 Microcontroller (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 31 - 8051 Microcontroller (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 32 - 8051 Microcontroller (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 33 - 8051 Microcontroller (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 34 - 8051 Microcontroller (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 35 - 8051 Microcontroller (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 36 - 8051 Programming Examples |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 37 - 8051 Programming Examples (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 38 - 8051 Programming Examples (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 39 - 8051 Programming Examples (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 40 - 8051 Programming Examples (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 41 - ARM |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 42 - ARM (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 43 - ARM (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 44 - ARM (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 45 - ARM (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 46 - ARM (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 47 - ARM (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 48 - ARM (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 49 - PIC |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 50 - PIC, AVR |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 51 - AVR (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 52 - AVR (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 53 - Interfacing |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 54 - Interfacing (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 55 - Interfacing (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 56 - Interfacing (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 57 - Interfacing (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 58 - Interfacing (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 59 - 8086 |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 60 - 8086 (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 61 - 8086 (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 62 - 8086 (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 63 - 8086 (Continued...) |
| Link |
NOC:Microprocessors and Microcontrollers |
Lecture 64 - 8087 |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 1 - Introduction to Visual Computing |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 2 - Feature Extraction for Visual Computing |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 3 - Feature Extraction with Python |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 4 - Neural Networks for Visual Computing |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 5 - Classification with Perceptron Model |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 6 - Introduction to Deep Learning with Neural Networks |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 7 - Introduction to Deep Learning with Neural Networks |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 8 - Multilayer Perceptron and Deep Neural Networks |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 9 - Multilayer Perceptron and Deep Neural Networks |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 10 - Classification with Multilayer Perceptron |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 11 - Autoencoder for Representation Learning and MLP Initialization |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 12 - MNIST handwritten digits classification using autoencoders |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 13 - Fashion MNIST classification using autoencoders |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 14 - ALL-IDB Classification using autoencoders |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 15 - Retinal Vessel Detection using autoencoders |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 16 - Stacked Autoencoders |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 17 - MNIST and Fashion MNIST with Stacked Autoencoders |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 18 - Denoising and Sparse Autoencoders |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 19 - Sparse Autoencoders for MNIST classification |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 20 - Denoising Autoencoders for MNIST classification |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 21 - Cost Function |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 22 - Classification cost functions |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 23 - Optimization Techniques and Learning Rules |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 24 - Gradient Descent Learning Rule |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 25 - SGD and ADAM Learning Rules |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 26 - Convolutional Neural Network Building Blocks |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 27 - Simple CNN Model: LeNet |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 28 - LeNet Definition |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 29 - Training a LeNet for MNIST Classification |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 30 - Modifying a LeNet for CIFAR |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 31 - Convolutional Autoencoder and Deep CNN |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 32 - Convolutional Autoencoder for Representation Learning |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 33 - AlexNet |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 34 - VGGNet |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 35 - Revisiting AlexNet and VGGNet for Computational Complexity |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 36 - GoogLeNet - Going very deep with convolutions |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 37 - GoogLeNet |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 38 - ResNet - Residual Connections within Very Deep Networks and DenseNet - Densely connected networks |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 39 - ResNet |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 40 - DenseNet |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 41 - Space and Computational Complexity in DNN |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 42 - Assessing the space and computational complexity of very deep CNNs |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 43 - Domain Adaptation and Transfer Learning in Deep Neural Networks |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 44 - Transfer Learning a GoogLeNet |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 45 - Transfer Learning a ResNet |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 46 - Activation pooling for object localization |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 47 - Region Proposal Networks (rCNN and Faster rCNN) |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 48 - GAP + rCNN |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 49 - Semantic Segmentation with CNN |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 50 - UNet and SegNet for Semantic Segmentation |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 51 - Autoencoders and Latent Spaces |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 52 - Principle of Generative Modeling |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 53 - Adversarial Autoencoders |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 54 - Adversarial Autoencoder for Synthetic Sample Generation |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 55 - Adversarial Autoencoder for Classification |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 56 - Understanding Video Analysis |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 57 - Recurrent Neural Networks and Long Short-Term Memory |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 58 - Spatio-Temporal Deep Learning for Video Analysis |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 59 - Activity recognition using 3D-CNN |
| Link |
NOC:Deep Learning For Visual Computing |
Lecture 60 - Activity recognition using CNN-LSTM |
| Link |
NOC:Power System Engineering |
Lecture 1 |
| Link |
NOC:Power System Engineering |
Lecture 2 |
| Link |
NOC:Power System Engineering |
Lecture 3 |
| Link |
NOC:Power System Engineering |
Lecture 4 |
| Link |
NOC:Power System Engineering |
Lecture 5 |
| Link |
NOC:Power System Engineering |
Lecture 6 |
| Link |
NOC:Power System Engineering |
Lecture 7 |
| Link |
NOC:Power System Engineering |
Lecture 8 |
| Link |
NOC:Power System Engineering |
Lecture 9 |
| Link |
NOC:Power System Engineering |
Lecture 10 |
| Link |
NOC:Power System Engineering |
Lecture 11 - Cables (Continued...) |
| Link |
NOC:Power System Engineering |
Lecture 12 - Transient over voltages and Insulation coordination |
| Link |
NOC:Power System Engineering |
Lecture 13 - Transient over voltages and Insulation coordination (Continued...) |
| Link |
NOC:Power System Engineering |
Lecture 14 - Transient over voltages and Insulation coordination (Continued...) |
| Link |
NOC:Power System Engineering |
Lecture 15 - Transient over voltages and Insulation coordination (Continued...) |
| Link |
NOC:Power System Engineering |
Lecture 16 - Transient over voltages and Insulation coordination (Continued...) |
| Link |
NOC:Power System Engineering |
Lecture 17 - Transient over voltages and Insulation coordination (Continued...) |
| Link |
NOC:Power System Engineering |
Lecture 18 - Transient over voltages and Insulation coordination (Continued...) |
| Link |
NOC:Power System Engineering |
Lecture 19 - Transient over voltages and Insulation coordination (Continued...) |
| Link |
NOC:Power System Engineering |
Lecture 20 - Corona |
| Link |
NOC:Power System Engineering |
Lecture 21 - Corona (Continued...) |
| Link |
NOC:Power System Engineering |
Lecture 22 - Corona (Continued...) |
| Link |
NOC:Power System Engineering |
Lecture 23 - Corona (Continued...), Sag and Tension Analysis |
| Link |
NOC:Power System Engineering |
Lecture 24 - Sag and Tension Analysis (Continued...) |
| Link |
NOC:Power System Engineering |
Lecture 25 - Sag and Tension Analysis (Continued...) |
| Link |
NOC:Power System Engineering |
Lecture 26 - Sag and Tension Analysis (Continued...) |
| Link |
NOC:Power System Engineering |
Lecture 27 - Sag and Tension Analysis (Continued...) |
| Link |
NOC:Power System Engineering |
Lecture 28 - Sag and Tension Analysis (Continued...) |
| Link |
NOC:Power System Engineering |
Lecture 29 - Load flow of radial distribution networks |
| Link |
NOC:Power System Engineering |
Lecture 30 - Load flow of radial distribution networks (Continued...) |
| Link |
NOC:Power System Engineering |
Lecture 31 - Load flow of radial distribution networks (Continued...) |
| Link |
NOC:Power System Engineering |
Lecture 32 - Load flow of radial distribution networks (Continued...) |
| Link |
NOC:Power System Engineering |
Lecture 33 - Load flow of radial distribution networks (Continued...) |
| Link |
NOC:Power System Engineering |
Lecture 34 - Load flow of radial distribution networks (Continued...) |
| Link |
NOC:Power System Engineering |
Lecture 35 - Load flow of radial distribution networks (Continued...) |
| Link |
NOC:Power System Engineering |
Lecture 36 - Load flow of radial distribution networks (Continued...) |
| Link |
NOC:Power System Engineering |
Lecture 37 - Load flow of radial distribution networks (Continued...), Voltage stability of distribution network |
| Link |
NOC:Power System Engineering |
Lecture 38 - Voltage stability of distribution network, Approximate method |
| Link |
NOC:Power System Engineering |
Lecture 39 - Application of capacitors in distribution system |
| Link |
NOC:Power System Engineering |
Lecture 40 - Application of capacitors in distribution system (Continued...) |
| Link |
NOC:Power System Engineering |
Lecture 41 - Application of capacitors in distribution system (Continued...) |
| Link |
NOC:Power System Engineering |
Lecture 42 - Application of capacitors in distribution system (Continued...) |
| Link |
NOC:Power System Engineering |
Lecture 43 - Application of capacitors in distribution system (Continued...) |
| Link |
NOC:Power System Engineering |
Lecture 44 - Application of capacitors in distribution system (Continued...), Load frequency control |
| Link |
NOC:Power System Engineering |
Lecture 45 - Load frequency control (Continued...) |
| Link |
NOC:Power System Engineering |
Lecture 46 - Load frequency control (Continued...) |
| Link |
NOC:Power System Engineering |
Lecture 47 - Load frequency control (Continued...) |
| Link |
NOC:Power System Engineering |
Lecture 48 - Load frequency control (Continued...) |
| Link |
NOC:Power System Engineering |
Lecture 49 - Load frequency control (Continued...) |
| Link |
NOC:Power System Engineering |
Lecture 50 - Load frequency control (Continued...) |
| Link |
NOC:Power System Engineering |
Lecture 51 - Load frequency control (Continued...) |
| Link |
NOC:Power System Engineering |
Lecture 52 - Load frequency control (Continued...) |
| Link |
NOC:Power System Engineering |
Lecture 53 - Load frequency control (Continued...) |
| Link |
NOC:Power System Engineering |
Lecture 54 - Load frequency control (Continued...) |
| Link |
NOC:Power System Engineering |
Lecture 55 - Load frequency control (Continued...) |
| Link |
NOC:Power System Engineering |
Lecture 56 - Load frequency control (Continued...) |
| Link |
NOC:Power System Engineering |
Lecture 57 - Automatic generation control |
| Link |
NOC:Power System Engineering |
Lecture 58 - Automatic generation control (Continued...) |
| Link |
NOC:Power System Engineering |
Lecture 59 - Automatic generation control (Continued...), Unit commitment |
| Link |
NOC:Power System Engineering |
Lecture 60 - Unit commitment (Continued...) |
| Link |
NOC:Power System Engineering |
Lecture 61 - Live Session |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 1 - Basic Concepts, Examples |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 2 - Basic Concepts, Examples (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 3 - Basic Concepts, Examples (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 4 - Basic Concepts, Examples (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 5 - Basic Laws |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 6 - Basic Laws (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 7 - Basic Laws (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 8 - Basic Laws (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 9 - Basic Laws (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 10 - Basic Laws (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 11 - Methods of Circuit Analysis |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 12 - Methods of Circuit Analysis (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 13 - Methods of Circuit Analysis (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 14 - Methods of Circuit Analysis (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 15 - Methods of Circuit Analysis (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 16 - Methods of Circuit Analysis (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 17 - Mesh analysis with current sources, Examples |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 18 - Methods of Circuit Analysis (Continued...) and Circuit Theorems |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 19 - Circuit Theorems (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 20 - Circuit Theorems (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 21 - Circuit Theorems (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 22 - Circuit Theorems (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 23 - Circuit Theorems (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 24 - Circuit Theorems (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 25 - Circuit Theorems (Continued...) and Capacitors and Inductors |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 26 - Capacitors and Inductors (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 27 - Capacitors and Inductors (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 28 - Capacitors and Inductors (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 29 - First Order Circuits |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 30 - First Order Circuits (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 31 - First Order Circuits (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 32 - First Order Circuits (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 33 - First Order Circuits (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 34 - First Order Circuits (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 35 - First Order Circuits (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 36 - First Order Circuits (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 37 - Single phase AC circuits |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 38 - Single phase AC circuits (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 39 - Single phase AC circuits (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 40 - Single phase AC circuits (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 41 - Single phase AC circuits (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 42 - Single phase AC circuits (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 43 - Single phase AC circuits (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 44 - Resonance and Maximum Power Transfer Theorem |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 45 - Resonance and Maximum Power Transfer Theorem (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 46 - Resonance and Maximum Power Transfer Theorem (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 47 - Three phase circuits |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 48 - Three phase circuits (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 49 - Three phase circuits (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 50 - Three phase circuits (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 51 - Magnetic Circuits |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 52 - Magnetic Circuits (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 53 - Magnetic Circuits (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 54 - Single Phase Transformer |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 55 - Single Phase Transformer (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 56 - Single Phase Transformer (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 57 - Single Phase Transformer (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 58 - Three phase Induction Motors |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 59 - Three phase Induction Motors (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 60 - Three phase Induction Motors (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 61 - Three phase Induction Motors (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 62 - DC Motors |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 63 - DC Motors (Continued...) |
| Link |
NOC:Fundamentals of Electrical Engineering |
Lecture 64 - DC Motors (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 1 - Introduction |
| Link |
NOC:Digital Circuits |
Lecture 2 - Introduction (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 3 - Number System |
| Link |
NOC:Digital Circuits |
Lecture 4 - Number System (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 5 - Number System (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 6 - Number System (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 7 - Number System (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 8 - Boolean Algebra |
| Link |
NOC:Digital Circuits |
Lecture 9 - Boolean Algebra (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 10 - Boolean Algebra (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 11 - Boolean Algebra (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 12 - Boolean Algebra (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 13 - Boolean Algebra (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 14 - Logic Gates |
| Link |
NOC:Digital Circuits |
Lecture 15 - Logic Gates (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 16 - Logic Gates (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 17 - Logic Gates (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 18 - Logic Gates (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 19 - Logic Gates (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 20 - Arithmetic Circuits |
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NOC:Digital Circuits |
Lecture 21 - Arithmetic Circuits (Continued...) |
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NOC:Digital Circuits |
Lecture 22 - Arithmetic Circuits (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 23 - Decoders, Multiplexers, PLA |
| Link |
NOC:Digital Circuits |
Lecture 24 - Decoders, Multiplexers, PLA (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 25 - Decoders, Multiplexers, PLA (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 26 - Decoders, Multiplexers, PLA (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 27 - Decoders, Multiplexers, PLA (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 28 - Sequential Circuits |
| Link |
NOC:Digital Circuits |
Lecture 29 - Sequential Circuits (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 30 - Sequential Circuits (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 31 - Sequential Circuits (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 32 - Sequential Circuits (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 33 - Sequential Circuits (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 34 - Sequential Circuits (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 35 - Finite State Machine |
| Link |
NOC:Digital Circuits |
Lecture 36 - Finite State Machine (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 37 - Data Converters |
| Link |
NOC:Digital Circuits |
Lecture 38 - Data Converters (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 39 - Data Converters (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 40 - Data Converters (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 41 - Memory |
| Link |
NOC:Digital Circuits |
Lecture 42 - Memory (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 43 - Memory (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 44 - FPGA |
| Link |
NOC:Digital Circuits |
Lecture 45 - FPGA (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 46 - VHDL |
| Link |
NOC:Digital Circuits |
Lecture 47 - VHDL(Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 48 - 8085 Microprocessor |
| Link |
NOC:Digital Circuits |
Lecture 49 - 8085 Microprocessor (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 50 - 8085 Microprocessor (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 51 - 8085 Microprocessor (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 52 - 8085 Microprocessor (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 53 - 8085 Microprocessor (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 54 - 8085 Microprocessor (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 55 - 8085 Microprocessor (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 56 - 8085 Microprocessor (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 57 - 8085 Microprocessor (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 58 - 8085 Microprocessor (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 59 - 8085 Microprocessor (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 60 - 8085 Microprocessor (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 61 - 8085 Microprocessor (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 62 - 8085 Microprocessor (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 63 - 8086 Microprocessor |
| Link |
NOC:Digital Circuits |
Lecture 64 - 8086 Microprocessor (Continued...) |
| Link |
NOC:Digital Circuits |
Lecture 65 - 8086 Microprocessor (Continued...) |
| Link |
NOC:Analysis and Design Principles of Microwave Antennas |
Lecture 1 - Concept of Scalar and Vector Potentials |
| Link |
NOC:Analysis and Design Principles of Microwave Antennas |
Lecture 2 - Radiation From a Current Element (Hertzian Dipole) |
| Link |
NOC:Analysis and Design Principles of Microwave Antennas |
Lecture 3 - Specific Properties of the Radiated Fields from a Current Element |
| Link |
NOC:Analysis and Design Principles of Microwave Antennas |
Lecture 4 - General Properties of Radiated Fields from an Antenna |
| Link |
NOC:Analysis and Design Principles of Microwave Antennas |
Lecture 5 - Farfield and Radiation Pattern of an Antenna |
| Link |
NOC:Analysis and Design Principles of Microwave Antennas |
Lecture 6 - Directivity and Gain of an Antenna |
| Link |
NOC:Analysis and Design Principles of Microwave Antennas |
Lecture 7 - Idea of Efficiency, Beamwidth, Polarisation and Bandwidth |
| Link |
NOC:Analysis and Design Principles of Microwave Antennas |
Lecture 8 - Polarization of Antenna |
| Link |
NOC:Analysis and Design Principles of Microwave Antennas |
Lecture 9 - Impedance of Antenna |
| Link |
NOC:Analysis and Design Principles of Microwave Antennas |
Lecture 10 - Effective Aperture of an Antenna |
| Link |
NOC:Analysis and Design Principles of Microwave Antennas |
Lecture 11 - Friss Transmission Equation and Antenna Temperature |
| Link |
NOC:Analysis and Design Principles of Microwave Antennas |
Lecture 12 - Dipole And Monopole Antena |
| Link |
NOC:Analysis and Design Principles of Microwave Antennas |
Lecture 13 - Dipole And Monopole Antena (Continued...) |
| Link |
NOC:Analysis and Design Principles of Microwave Antennas |
Lecture 14 - BALUN |
| Link |
NOC:Analysis and Design Principles of Microwave Antennas |
Lecture 15 - Loop Antenna |
| Link |
NOC:Analysis and Design Principles of Microwave Antennas |
Lecture 16 - Folded Dipole Antenna |
| Link |
NOC:Analysis and Design Principles of Microwave Antennas |
Lecture 17 - Introduction to Antenna Array |
| Link |
NOC:Analysis and Design Principles of Microwave Antennas |
Lecture 18 - Antenna Array Theory |
| Link |
NOC:Analysis and Design Principles of Microwave Antennas |
Lecture 19 - Broadside Uniform Linear Array |
| Link |
NOC:Analysis and Design Principles of Microwave Antennas |
Lecture 20 - Endfire Linear Uniform Array |
| Link |
NOC:Analysis and Design Principles of Microwave Antennas |
Lecture 21 - Parasitic Array and Log Periodic Antenna |
| Link |
NOC:Analysis and Design Principles of Microwave Antennas |
Lecture 22 - Analysis Procedures of Aperture Antennas |
| Link |
NOC:Analysis and Design Principles of Microwave Antennas |
Lecture 23 - Analysis Procedures of Aperture Antenna (Continued...) |
| Link |
NOC:Analysis and Design Principles of Microwave Antennas |
Lecture 24 - Horn Antenna |
| Link |
NOC:Analysis and Design Principles of Microwave Antennas |
Lecture 25 - Horn Antenna (Continued...) |
| Link |
NOC:Analysis and Design Principles of Microwave Antennas |
Lecture 26 - Reflector Antennas |
| Link |
NOC:Analysis and Design Principles of Microwave Antennas |
Lecture 27 - Paraboloid Reflector Antenna (Continued...) |
| Link |
NOC:Analysis and Design Principles of Microwave Antennas |
Lecture 28 - Paraboloid Reflector Antenna (Continued...) |
| Link |
NOC:Analysis and Design Principles of Microwave Antennas |
Lecture 29 - Dual Reflector Antenna |
| Link |
NOC:Analysis and Design Principles of Microwave Antennas |
Lecture 30 - Generalised Analysis of Antenna |
| Link |
NOC:Analysis and Design Principles of Microwave Antennas |
Lecture 31 - Solution of Wave Equation for Electric and Magnetic Current Densities |
| Link |
NOC:Analysis and Design Principles of Microwave Antennas |
Lecture 32 - Farfield Evaluation of Spherical Wave Radiation by Generalised Antenna |
| Link |
NOC:Analysis and Design Principles of Microwave Antennas |
Lecture 33 - Slot Antenna |
| Link |
NOC:Analysis and Design Principles of Microwave Antennas |
Lecture 34 - Open Ended Waveguide Antenna and Microstrip Antenna |
| Link |
NOC:Analysis and Design Principles of Microwave Antennas |
Lecture 35 - Numerical Evaluation of Wire Antenna Currents |
| Link |
NOC:Analysis and Design Principles of Microwave Antennas |
Lecture 36 - Solution of Intregral Equation by Moment Method |
| Link |
NOC:Analysis and Design Principles of Microwave Antennas |
Lecture 37 - Array Pattern Synthesis |
| Link |
NOC:Analysis and Design Principles of Microwave Antennas |
Lecture 38 - Array Pattern Synthesis (Continued...) |
| Link |
NOC:Analysis and Design Principles of Microwave Antennas |
Lecture 39 - Ultra Wideband Antennas |
| Link |
NOC:Analysis and Design Principles of Microwave Antennas |
Lecture 40 - Antenna Measurements |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 1 - Introduction to VLSI Design Flow |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 2 - Introduction to VLSI Design Flow |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 3 - Introduction to VLSI Design Flow |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 4 - Algorithm to Efficient Architecture Mapping |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 5 - Algorithm to Efficient Architecture Mapping (Continued...) |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 6 - Algorithm to Efficient Architecture Mapping (Continued...) |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 7 - Tutorial on Algorithm to Efficient Architecture Mapping |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 8 - Algorithm to Efficient Architecture Mapping (Continued...) |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 9 - Algorithm to Efficient Architecture Mapping (Continued...) |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 10 - Algorithm to Efficient Architecture Mapping (Continued...) |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 11 - Algorithm to Efficient Architecture Mapping (Continued...) |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 12 - Algorithm to Efficient Architecture Mapping (Continued...) |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 13 - Algorithm to Efficient Architecture Mapping (Continued...) |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 14 - Algorithm to Efficient Architecture Mapping (Continued...) |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 15 - Efficient Adder Architecture |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 16 - Efficient Adder Architecture (Continued...) |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 17 - Efficient Adder Architecture (Continued...) |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 18 - Efficient Adder Architecture |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 19 - Efficient Adder Architecture |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 20 - Efficient Adder Architecture |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 21 - Efficient Adder Architecture |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 22 - Efficient Adder Architecture |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 23 - Efficient Adder Architecture |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 24 - Efficient Adder Architecture |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 25 - Pipelining and Parallel Processing |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 26 - Pipelining and Parallel Processing |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 27 - Multiplier Architecture |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 28 - Multiplier Architecture |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 29 - Multiplier Architecture |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 30 - Multiplier Architecture |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 31 - Multiplier Architecture |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 32 - Multiplier Architecture |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 33 - Multiplier Architecture |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 34 - Multiplier Architecture |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 35 - Squaring Circuit Design |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 36 - Reconfigurable Constant Multiplier Design |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 37 - Reconfigurable Constant Multiplier Design |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 38 - Reconfigurable Constant Multiplier Design |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 39 - Fixed Point Number Representation |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 40 - Fixed Point Number Representation |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 41 - CORDIC Architecture |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 42 - CORDIC Architecture |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 43 - CORDIC Architecture |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 44 - CORDIC Architecture |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 45 - Timing Analysis |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 46 - Timing Analysis |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 47 - Timing Analysis |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 48 - Logic Hazard |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 49 - FFT Architecture |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 50 - FFT Architecture (Continued...) |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 51 - Timing analysis Basics |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 52 - Timing analysis Basics (Continued...) |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 53 - Timing analysis Basics (Continued...) |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 54 - Timing Issuesin Digital IC Design |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 55 - Timing Issuesin Digital IC Design (Continued...) |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 56 - Timing Issuesin Digital IC Design (Continued...) |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 57 - Timing Issuesin Digital IC Design (Continued...) |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 58 - Architectural Design of Digital Integrated Circuits |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 59 - Design Tips for Basic Circuits Design (Continued...) |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 60 - Design Tips for Basic Circuits Design (Continued...) |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 61 - Design Tips for Basic Circuits Design (Continued...) |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 62 - Low Power Digital Design |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 63 - Low Power Digital Design (Continued...) |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 64 - Low Power Digital Design |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 65 - Low Power Digital Design (Continued...) |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 66 - Hardware for Machine Learning: Design Considerations Design Tips |
| Link |
NOC:Architectural Design of Digital Integrated Circuits |
Lecture 67 - Hardware for Machine Learning: Design Considerations Design Tips (Continued...) |
| Link |
NOC:Electrical Machines-II |
Lecture 1 - Inductance, Self and Mutual |
| Link |
NOC:Electrical Machines-II |
Lecture 2 - Relationship of Inductances in Transformer |
| Link |
NOC:Electrical Machines-II |
Lecture 3 - Equivalent Circuit from Circuit KVL Equations |
| Link |
NOC:Electrical Machines-II |
Lecture 4 - Co-efficient of Coupling , Energy Stored in Coupled Coils |
| Link |
NOC:Electrical Machines-II |
Lecture 5 - A Single Conductor Generator and Motor |
| Link |
NOC:Electrical Machines-II |
Lecture 6 - Analysis of Single Conductor Generator and Motor |
| Link |
NOC:Electrical Machines-II |
Lecture 7 - Analysis of Single Conductor Generator and Motor (Continued...) |
| Link |
NOC:Electrical Machines-II |
Lecture 8 - Flux Density Distribution in Space and Nature emf |
| Link |
NOC:Electrical Machines-II |
Lecture 9 - Flux Density Distribution in Space and Nature emf (Continued...) |
| Link |
NOC:Electrical Machines-II |
Lecture 10 - From Linear to Rotating Machine |
| Link |
NOC:Electrical Machines-II |
Lecture 11 - From Linear to Rotating Machine (Continued...) |
| Link |
NOC:Electrical Machines-II |
Lecture 12 - Basic Underlying Principle of Operation of Rotating Machine |
| Link |
NOC:Electrical Machines-II |
Lecture 13 - Basic Underlying Principle of Operation of Rotating Machine (Continued...) |
| Link |
NOC:Electrical Machines-II |
Lecture 14 - Flux Density Distribution along the Air Gap |
| Link |
NOC:Electrical Machines-II |
Lecture 15 - Flux Density Distribution along the Air Gap (Continued...) |
| Link |
NOC:Electrical Machines-II |
Lecture 16 - Induced Voltage in a Coil in a Rotating Machine |
| Link |
NOC:Electrical Machines-II |
Lecture 17 - Induced Voltage in a Coil in a Rotating Machine (Continued...) |
| Link |
NOC:Electrical Machines-II |
Lecture 18 - Induced Voltage in a Coil in a Rotating Machine (Continued...) |
| Link |
NOC:Electrical Machines-II |
Lecture 19 - Induced Voltage due to Fundamental and Harmonic Components of Flux Density Distribution |
| Link |
NOC:Electrical Machines-II |
Lecture 20 - Distributed Coils Connected in Series Resultant Voltage |
| Link |
NOC:Electrical Machines-II |
Lecture 21 - Distribution Factor |
| Link |
NOC:Electrical Machines-II |
Lecture 22 - Pitch Factor and Winding Factor |
| Link |
NOC:Electrical Machines-II |
Lecture 23 - How to decide about Short Pitch Angle ϵ |
| Link |
NOC:Electrical Machines-II |
Lecture 24 - Double Layer 3-phase Winding - An Introduction |
| Link |
NOC:Electrical Machines-II |
Lecture 25 - Winding Table for 3-phase Distributed Winding |
| Link |
NOC:Electrical Machines-II |
Lecture 26 - Winding Table for 3-phase Distributed Winding with Examples |
| Link |
NOC:Electrical Machines-II |
Lecture 27 - Winding Table for 3-phase Distributed Winding with Examples (Continued...) |
| Link |
NOC:Electrical Machines-II |
Lecture 28 - 120 degree Phase Spread Winding with Examples |
| Link |
NOC:Electrical Machines-II |
Lecture 29 - Winding Table of 120 degree Phase Spread Coils and Group Connection |
| Link |
NOC:Electrical Machines-II |
Lecture 30 - Introduction to Rotating Magnetic Field |
| Link |
NOC:Electrical Machines-II |
Lecture 31 - Rotating Magnetic Field (Continued...), Mechanical and Electrical Speed |
| Link |
NOC:Electrical Machines-II |
Lecture 32 - Speed and Direction of Rotating Field |
| Link |
NOC:Electrical Machines-II |
Lecture 33 - Synchronous Speed and How to Calculate Induced Voltage in a Coil |
| Link |
NOC:Electrical Machines-II |
Lecture 34 - Introduction to Induction Motor |
| Link |
NOC:Electrical Machines-II |
Lecture 35 - Introduction to Induction Motor (Continued...) |
| Link |
NOC:Electrical Machines-II |
Lecture 36 - General Expression of Torque in Terms of Stator and Rotor Fields |
| Link |
NOC:Electrical Machines-II |
Lecture 37 - Torque Angle and Torque Expression |
| Link |
NOC:Electrical Machines-II |
Lecture 38 - How to Fix Up Positions of Net Field, Rotor Field and Stator Field |
| Link |
NOC:Electrical Machines-II |
Lecture 39 - Slip: Its Importance and Range for Motor Operation |
| Link |
NOC:Electrical Machines-II |
Lecture 40 - Equivalent Circuit of 3-Phase Induction Motor |
| Link |
NOC:Electrical Machines-II |
Lecture 41 - Equivalent Circuit of 3-Phase Induction Motor (Continued...) |
| Link |
NOC:Electrical Machines-II |
Lecture 42 - Equivalent Circuit of 3-Phase Induction Motor (Continued...) |
| Link |
NOC:Electrical Machines-II |
Lecture 43 - Expression for Electromagnetic Torque in terms of Equivalent Circuit Parameters |
| Link |
NOC:Electrical Machines-II |
Lecture 44 - Maximum Electromagnetic Torque and Slip at Which it Occurs |
| Link |
NOC:Electrical Machines-II |
Lecture 45 - Typical Torque Slip Characteristic and Operating Point |
| Link |
NOC:Electrical Machines-II |
Lecture 46 - Change in Torque-slip Characteristic as Supply Voltage and Rotor Resistance are Varied |
| Link |
NOC:Electrical Machines-II |
Lecture 47 - Types of Induction Motor - Slip Ring Type |
| Link |
NOC:Electrical Machines-II |
Lecture 48 - Introduction to Cage Induction Motor |
| Link |
NOC:Electrical Machines-II |
Lecture 49 - Cage Motor Can Operate for Different Stator Poles |
| Link |
NOC:Electrical Machines-II |
Lecture 50 - Core Loss in Induction Motor and Simplified Equivalent Circuit |
| Link |
NOC:Electrical Machines-II |
Lecture 51 - Torque Expression from Simplified Equivalent Circuit and Introduction to Circle Diagram |
| Link |
NOC:Electrical Machines-II |
Lecture 52 - Circle Diagram (Continued...) |
| Link |
NOC:Electrical Machines-II |
Lecture 53 - Exact Power Flow Diagram and Circle Diagram |
| Link |
NOC:Electrical Machines-II |
Lecture 54 - Circle Diagram (Continued...) |
| Link |
NOC:Electrical Machines-II |
Lecture 55 - Circle Diagram: Slip Line |
| Link |
NOC:Electrical Machines-II |
Lecture 56 - Circle Diagram from Test Data |
| Link |
NOC:Electrical Machines-II |
Lecture 57 - Starting of 3 Phase Induction Motor - Introduction |
| Link |
NOC:Electrical Machines-II |
Lecture 58 - DOL and Reactor Starting |
| Link |
NOC:Electrical Machines-II |
Lecture 59 - DOL and Auto Transformer Starting |
| Link |
NOC:Electrical Machines-II |
Lecture 60 - Introduction to Speed Control |
| Link |
NOC:Electrical Machines-II |
Lecture 61 - Idea of VVVF Speed Control of Induction Motor |
| Link |
NOC:Electrical Machines-II |
Lecture 62 - Speed Contro Using Two Motors |
| Link |
NOC:Electrical Machines-II |
Lecture 63 - Electrical Braking of 3 Phase Induction Motor |
| Link |
NOC:Electrical Machines-II |
Lecture 64 - Braking (Continued...) |
| Link |
NOC:Electrical Machines-II |
Lecture 65 - Introduction to Single Phase Induction Motor - Sequence Currents |
| Link |
NOC:Electrical Machines-II |
Lecture 66 - Development of Equivalent Circuit |
| Link |
NOC:Electrical Machines-II |
Lecture 67 - Development of Equivalent Circuit (Continued...) |
| Link |
NOC:Electrical Machines-II |
Lecture 68 - Torque-slip Ch. of 1 ph. I-M Running on Single Winding |
| Link |
NOC:Electrical Machines-II |
Lecture 69 - Introduction to Starting of 1ph. Induction Motor |
| Link |
NOC:Electrical Machines-II |
Lecture 70 - Expression for Starting Torque and Need for Phase Splitting |
| Link |
NOC:Electrical Machines-II |
Lecture 71 - Resistor Split 1 ph. Induction Motor |
| Link |
NOC:Electrical Machines-II |
Lecture 72 - Capacitor Split 1 ph Induction Motor |
| Link |
NOC:Electrical Machines-II |
Lecture 73 - Starting of 1 ph. Induction Motor (Continued...) |
| Link |
NOC:Electrical Machines-II |
Lecture 74 - Synchronous Machine Construction |
| Link |
NOC:Electrical Machines-II |
Lecture 75 - Synchronous Generator - Introduction |
| Link |
NOC:Electrical Machines-II |
Lecture 76 - Synchronisation |
| Link |
NOC:Electrical Machines-II |
Lecture 77 - Expression for Induced Voltage and O.C. Phasor Diagram |
| Link |
NOC:Electrical Machines-II |
Lecture 78 - Loaded Synchronous Generator - Resultant Field |
| Link |
NOC:Electrical Machines-II |
Lecture 79 - Armature Reaction and Synchronous Reactance. Basic Phasor Diagram |
| Link |
NOC:Electrical Machines-II |
Lecture 80 - General Mode of Operation - Rotro Field, Stator Field and Resultant Field |
| Link |
NOC:Electrical Machines-II |
Lecture 81 - Complete Phasor Diagram and Expression for Complex Power |
| Link |
NOC:Electrical Machines-II |
Lecture 82 - Synchronous Motor Operation, Phasor Diagram and Power Expression |
| Link |
NOC:Electrical Machines-II |
Lecture 83 - Effect of Variation of Field Current in Generator |
| Link |
NOC:Electrical Machines-II |
Lecture 84 - Effect of Variation Field Current in Synchronous Motor, Introduction to Salient Pole Machine |
| Link |
NOC:Electrical Machines-II |
Lecture 85 - Analysis of Salient Pole Synchronous Machine |
| Link |
NOC:Electrical Machines-II |
Lecture 86 - Phasor Diagram of Salient Pole Synchronous Machine for Generator and Motor Mode |
| Link |
NOC:Electrical Machines-II |
Lecture 87 - Expression for Load Angle and Expression for Power |
| Link |
NOC:Electrical Machines-II |
Lecture 88 - Phasor Diagrams of Salient Pole Synchronous Generator under Various Conditions |
| Link |
NOC:Electrical Machines-II |
Lecture 89 - Phasor Diagrams of Salient Pole Synchronous Motor under Various Conditions |
| Link |
NOC:Electrical Machines-II |
Lecture 90 - O.C and S.C Test on Synchronous Generator |
| Link |
NOC:Digital Electronic Circuits |
Lecture 1 - Introduction |
| Link |
NOC:Digital Electronic Circuits |
Lecture 2 - Transistor as a switch |
| Link |
NOC:Digital Electronic Circuits |
Lecture 3 - Performance Issues and Introduction to TTL |
| Link |
NOC:Digital Electronic Circuits |
Lecture 4 - Transistor Transistor Logic (TTL) |
| Link |
NOC:Digital Electronic Circuits |
Lecture 5 - CMOS Logic |
| Link |
NOC:Digital Electronic Circuits |
Lecture 6 - Basic Gates and their representations |
| Link |
NOC:Digital Electronic Circuits |
Lecture 7 - Fundamentals of Boolean Algebra |
| Link |
NOC:Digital Electronic Circuits |
Lecture 8 - Boolean Function to Truth Table and Implementaion Issues |
| Link |
NOC:Digital Electronic Circuits |
Lecture 9 - Truth Table to Boolean Function and Implementaion Issues |
| Link |
NOC:Digital Electronic Circuits |
Lecture 10 - Karnugh Map and Digital Circuit Realization |
| Link |
NOC:Digital Electronic Circuits |
Lecture 11 - Karnaugh Map to Entered Variable Map |
| Link |
NOC:Digital Electronic Circuits |
Lecture 12 - Quine - McClusky (QM) Algorithm |
| Link |
NOC:Digital Electronic Circuits |
Lecture 13 - Cost Criteria and Minimization of Multiple Output Functions |
| Link |
NOC:Digital Electronic Circuits |
Lecture 14 - Static 1 Hazard |
| Link |
NOC:Digital Electronic Circuits |
Lecture 15 - Static 0 Hazard and Dynamic Hazard |
| Link |
NOC:Digital Electronic Circuits |
Lecture 16 - Multiplexer: Part I |
| Link |
NOC:Digital Electronic Circuits |
Lecture 17 - Multiplexer: Part II |
| Link |
NOC:Digital Electronic Circuits |
Lecture 18 - Demultiplexer / Decoder |
| Link |
NOC:Digital Electronic Circuits |
Lecture 19 - Decoder with BCD Input and Encoder |
| Link |
NOC:Digital Electronic Circuits |
Lecture 20 - Parity Generator and Checker |
| Link |
NOC:Digital Electronic Circuits |
Lecture 21 - Number System |
| Link |
NOC:Digital Electronic Circuits |
Lecture 22 - Negative Number and 2s Complement Arithmetic |
| Link |
NOC:Digital Electronic Circuits |
Lecture 23 - Arithmetic Building Blocks - I |
| Link |
NOC:Digital Electronic Circuits |
Lecture 24 - Arithmetic Building Blocks - II |
| Link |
NOC:Digital Electronic Circuits |
Lecture 25 - Overflow Detection and BCD Arithmetic |
| Link |
NOC:Digital Electronic Circuits |
Lecture 26 - Magnitude Comparator |
| Link |
NOC:Digital Electronic Circuits |
Lecture 27 - Arithmetic Logic Unit (ALU) |
| Link |
NOC:Digital Electronic Circuits |
Lecture 28 - Unweighted Code |
| Link |
NOC:Digital Electronic Circuits |
Lecture 29 - Error Detection and Correction Code |
| Link |
NOC:Digital Electronic Circuits |
Lecture 30 - Multiplication and Division |
| Link |
NOC:Digital Electronic Circuits |
Lecture 31 - SR Latch and Introduction to Clocked Flip-Flop |
| Link |
NOC:Digital Electronic Circuits |
Lecture 32 - Edge-Triggered Flip-Flop |
| Link |
NOC:Digital Electronic Circuits |
Lecture 33 - Representations of Flip-Flops |
| Link |
NOC:Digital Electronic Circuits |
Lecture 34 - Analysis of Sequential Logic Circuit |
| Link |
NOC:Digital Electronic Circuits |
Lecture 35 - Conversion of Flip-Flops and Flip-Flop Timing Parameters |
| Link |
NOC:Digital Electronic Circuits |
Lecture 36 - Register and Shift Register: PIPO and SISO |
| Link |
NOC:Digital Electronic Circuits |
Lecture 37 - Shift Register: SIPO, PISO and Universal Shift Register |
| Link |
NOC:Digital Electronic Circuits |
Lecture 38 - Application of Shift Register |
| Link |
NOC:Digital Electronic Circuits |
Lecture 39 - Linear Feedback Shift Register |
| Link |
NOC:Digital Electronic Circuits |
Lecture 40 - Serial Addition, Multiplication and Division |
| Link |
NOC:Digital Electronic Circuits |
Lecture 41 - Asynchronous Counter |
| Link |
NOC:Digital Electronic Circuits |
Lecture 42 - Decoding Logic and Synchronous Counter |
| Link |
NOC:Digital Electronic Circuits |
Lecture 43 - Cascading: Mod 2, 3, 5 to Mod 6, 10, 1000 Counter |
| Link |
NOC:Digital Electronic Circuits |
Lecture 44 - Counter Design with Asynchronous Reset and Preset |
| Link |
NOC:Digital Electronic Circuits |
Lecture 45 - Counter Design as Synthesis Problem and Few Other Uses of Counter |
| Link |
NOC:Digital Electronic Circuits |
Lecture 46 - Synthesis of Sequential Logic Circuit: Moore Model and Mealy Model |
| Link |
NOC:Digital Electronic Circuits |
Lecture 47 - Moore Model and Mealy Model: Realization of Digital Logic Circuit |
| Link |
NOC:Digital Electronic Circuits |
Lecture 48 - Algorithmic State Machine (ASM) Chart and Synthesis of Sequential Logic Circuit |
| Link |
NOC:Digital Electronic Circuits |
Lecture 49 - Circuit Realization from ASM Chart and State Minimization |
| Link |
NOC:Digital Electronic Circuits |
Lecture 50 - State Minimization by Implication Table and Partitioning Method |
| Link |
NOC:Digital Electronic Circuits |
Lecture 51 - Digital to Analog Conversion - I |
| Link |
NOC:Digital Electronic Circuits |
Lecture 52 - Digital to Analog Conversion - II |
| Link |
NOC:Digital Electronic Circuits |
Lecture 53 - Analog to Digital Conversion - I |
| Link |
NOC:Digital Electronic Circuits |
Lecture 54 - Analog to Digital Conversion - II |
| Link |
NOC:Digital Electronic Circuits |
Lecture 55 - Certain Performance Issue of ADC and DAC |
| Link |
NOC:Digital Electronic Circuits |
Lecture 56 - Introduction to Memory |
| Link |
NOC:Digital Electronic Circuits |
Lecture 57 - Static Random Access Memory (SRAM) |
| Link |
NOC:Digital Electronic Circuits |
Lecture 58 - Dynamic RAM (DRAM) and Memory Expansion |
| Link |
NOC:Digital Electronic Circuits |
Lecture 59 - Read Only Memory (ROM) |
| Link |
NOC:Digital Electronic Circuits |
Lecture 60 - PAL, PLA, CPLD, FPGA |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 1 - Power System stability |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 2 - Power System stability (Continued...) |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 3 - Power System stability (Continued...) |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 4 - Power System stability (Continued...) |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 5 - Power System stability (Continued...) |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 6 - Power System Stability (Continued...) |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 7 - Power System Stability (Continued...) |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 8 - Power System Stability (Continued...) |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 9 - Power System Stability (Continued...) |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 10 - Power System Stability (Continued...) |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 11 - Power System Stability (Continued...) |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 12 - Power System Stability (Continued...) |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 13 - Power System Stability (Continued...) |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 14 - Power System Stability (Continued...) |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 15 - Power System Stability (Continued...) |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 16 - Power System Stability (Continued...) |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 17 - Power System Stability (Continued...) |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 18 - Power System Stability (Continued...) |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 19 - Power System Stability (Continued...) |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 20 - Power System Stability (Continued...) |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 21 - Power System stability (Continued...) |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 22 - Power System stability, Eigen properties of the state matrix |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 23 - Power System stability, Eigen properties of the state matrix (Continued...) |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 24 - Power System stability, Eigen properties of the state matrix (Continued...) |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 25 - Power System stability, Eigen properties of the state matrix (Continued...) |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 26 - Power System stability, Eigen properties of the state matrix (Continued...) |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 27 - Power System stability, Eigen properties of the state matrix, Transient stability |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 28 - Transient stability |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 29 - Transient stability (Continued...) |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 30 - Transient stability (Continued...) |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 31 - Transient stability |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 32 - Transient stability, Automatic generation control conventional scenario |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 33 - Automatic generation control conventional scenario |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 34 - Automatic generation control conventional scenario |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 35 - Automatic generation control conventional scenario |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 36 - Automatic generation control conventional scenario |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 37 - Automatic generation control conventional scenario |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 38 - Automatic generation control conventional scenario |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 39 - Automatic generation control conventional scenario |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 40 - Automatic generation control conventional scenario |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 41 - AGC in deregulated system |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 42 - AGC in deregulated system (Continued...) |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 43 - AGC in deregulated system (Continued...) |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 44 - AGC in deregulated system (Continued...) |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 45 - AGC in deregulated system (Continued...) |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 46 - AGC in deregulated system (Continued...) |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 47 - AGC in deregulated system (Continued...) |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 48 - AGC in deregulated system (Continued...) |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 49 - AGC in deregulated system, Reactive power and voltage control |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 50 - Reactive power and voltage control |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 51 - Reactive power and voltage control, State extimation in power system |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 52 - State estimation in power system |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 53 - State estimation in power system (Continued...) |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 54 - State estimation in power system (Continued...) |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 55 - State estimation in power system (Continued...) |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 56 - State estimation in power system (Continued...) |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 57 - Hydraulic turbine modelling |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 58 - Hydraulic turbine modelling (Continued...) |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 59 - Subsynchronous oscillation |
| Link |
NOC:Power System Dynamics, Control and Monitoring |
Lecture 60 - Subsynchronous oscillation, Windup and non windup limits |
| Link |
NOC:Evolution of Air Interface towards 5G |
Lecture 1 - Evolution of wireless Communication |
| Link |
NOC:Evolution of Air Interface towards 5G |
Lecture 2 - Evolution of wireless Communication Standards From 2G to 5G |
| Link |
NOC:Evolution of Air Interface towards 5G |
Lecture 3 - Evolution of wireless Communication Standards From 2G to 5G (Continued...) |
| Link |
NOC:Evolution of Air Interface towards 5G |
Lecture 4 - Evolution of wireless Communication Standards From 2G to 5G (Continued...) |
| Link |
NOC:Evolution of Air Interface towards 5G |
Lecture 5 - Evolution of wireless Communication Standards From 2G to 5G (Continued...) |
| Link |
NOC:Evolution of Air Interface towards 5G |
Lecture 6 - Requirements and operating scenarios of 5G |
| Link |
NOC:Evolution of Air Interface towards 5G |
Lecture 7 - Requirements and operating scenarios of 5G (Continued....) |
| Link |
NOC:Evolution of Air Interface towards 5G |
Lecture 8 - 5G scenarios |
| Link |
NOC:Evolution of Air Interface towards 5G |
Lecture 9 - Ultra reliable low latency communication |
| Link |
NOC:Evolution of Air Interface towards 5G |
Lecture 10 - Designing 5G new radio |
| Link |
NOC:Evolution of Air Interface towards 5G |
Lecture 11 - Fundamental Framework for waveform analysis |
| Link |
NOC:Evolution of Air Interface towards 5G |
Lecture 12 - Fundamental Framework for waveform analysis (Continued...) |
| Link |
NOC:Evolution of Air Interface towards 5G |
Lecture 13 - Waveform Design Aspects of 2G |
| Link |
NOC:Evolution of Air Interface towards 5G |
Lecture 14 - Waveforms in 3G |
| Link |
NOC:Evolution of Air Interface towards 5G |
Lecture 15 - Waveforms in 3G (Continued...) |
| Link |
NOC:Evolution of Air Interface towards 5G |
Lecture 16 - Waveform in 4G and 5G (OFDM) |
| Link |
NOC:Evolution of Air Interface towards 5G |
Lecture 17 - Waveform in 4G and 5G (OFDM) (Continued...) |
| Link |
NOC:Evolution of Air Interface towards 5G |
Lecture 18 - Waveform in 4G and 5G (OFDM) (Continued...) |
| Link |
NOC:Evolution of Air Interface towards 5G |
Lecture 19 - Waveform in 4G and 5G (OFDMA) |
| Link |
NOC:Evolution of Air Interface towards 5G |
Lecture 20 - Waveform in 4G and 5G (OFDMA, SCFDMA, SCFDE) |
| Link |
NOC:Evolution of Air Interface towards 5G |
Lecture 21 - Waveform in 4G and 5G (SCFDMA Continued...) |
| Link |
NOC:Evolution of Air Interface towards 5G |
Lecture 22 - Waveform in 5G |
| Link |
NOC:Evolution of Air Interface towards 5G |
Lecture 23 - Waveform in 5G Numerology |
| Link |
NOC:Evolution of Air Interface towards 5G |
Lecture 24 - Frame Structure in 5G NR |
| Link |
NOC:Evolution of Air Interface towards 5G |
Lecture 25 - Numerology in 5G and adaptive subcarrier bandwidth |
| Link |
NOC:Evolution of Air Interface towards 5G |
Lecture 26 - Numerology in 5G (Continued...) |
| Link |
NOC:Evolution of Air Interface towards 5G |
Lecture 27 - Waveforms beyond 5G |
| Link |
NOC:Evolution of Air Interface towards 5G |
Lecture 28 - Waveforms beyond 5G (Continued...) |
| Link |
NOC:Evolution of Air Interface towards 5G |
Lecture 29 - Waveforms beyond 5G (Continued...) |
| Link |
NOC:Evolution of Air Interface towards 5G |
Lecture 30 - Waveforms beyond 5G (Continued...) |
| Link |
NOC:Evolution of Air Interface towards 5G |
Lecture 31 - Waveform beyond 5G (Precoded GFDM) |
| Link |
NOC:Evolution of Air Interface towards 5G |
Lecture 32 - Comparison of waveforms |
| Link |
NOC:Evolution of Air Interface towards 5G |
Lecture 33 - Channel models for performance evaluation - Part I |
| Link |
NOC:Evolution of Air Interface towards 5G |
Lecture 34 - Channel models for performance evaluation - Part II |
| Link |
NOC:Evolution of Air Interface towards 5G |
Lecture 35 - Channel models for performance evaluation - Part III |
| Link |
NOC:Evolution of Air Interface towards 5G |
Lecture 36 - MIMO Signal Processing (Receive Diversity) |
| Link |
NOC:Evolution of Air Interface towards 5G |
Lecture 37 - MIMO Signal Processing |
| Link |
NOC:Evolution of Air Interface towards 5G |
Lecture 38 - MIMO Signal Processing (Capacity) |
| Link |
NOC:Evolution of Air Interface towards 5G |
Lecture 39 - MIMO Signal Processing (Capacity and Massive MIMO) |
| Link |
NOC:Evolution of Air Interface towards 5G |
Lecture 40 - Hybrid beamforming (mmWave) |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 1 - PMMC Instruments |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 2 - Electrodynamic Instrument |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 3 - Demonstration of PMMC and Electrodynamic Instruments |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 4 - Features of PMMC and Electrodynamic Instruments |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 5 - Moving Iron Instruments |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 6 - Demonstration of Moving Iron Instrument |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 7 - Electrostatic Instrument |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 8 - Derivation of Deflecting Torque in Electrodynamic, Electrostatic and Moving Iron Instrument |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 9 - Damping and Eddy Current Damping |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 10 - Dynamics of the Moving Coil and Damping |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 11 - Dynamics of the Moving Coil and Damping (Continued...) |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 12 - Ballistic Galvanometer |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 13 - Ammeter - I |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 14 - Ammeter - II |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 15 - Voltmeter |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 16 - Ohmmeters - I |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 17 - Ohmmeters - II |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 18 - Rectifier based Voltmeters and Ammeter - I |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 19 - Rectifier based Voltmetesr and Ammeter - II |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 20 - Resistance measurement with a Voltmeter and an Ammeter |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 21 - Four-Terminal Resistance |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 22 - Problems: Four Terminal Resistance |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 23 - Error Calculation |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 24 - Sensitivity, Accuracy, and Resolution of Wheatstone Bridge |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 25 - Kelvin Double Bridge |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 26 - High Resistance Measurement |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 27 - Wattmeter Connection and Compensated Wattmeter |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 28 - Single Phase Energy Meter |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 29 - Demonstration: 1. Eddy Current Braking 2.Creation of Magnetic Field Without Moving Objects |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 30 - Single Phase Energy Meter (Continued...) |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 31 - Connection of Energy Meter, Wattmeter, and Three Phase Supply |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 32 - DC Potentiometer |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 33 - AC Potentiometer |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 34 - Polar potentiometer and phase shifter |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 35 - Polar potentiometer |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 36 - Co-ordinate potentiometer |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 37 - Kelvin-Varley potential divider |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 38 - Impedance measurement |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 39 - AC bridges - I |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 40 - AC bridges - II |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 41 - AC bridges - III |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 42 - Current transformer and potential transformer |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 43 - Review of transformer and magnetic circuit |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 44 - Errrors in Instrument ransformer |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 45 - Flux density measurement with Ballistic Galvanometer |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 46 - Flux density measurement with Ballistic Galvanometer (Continued...) |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 47 - Background: From Flip Flop to Counters - I |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 48 - Background: From Flip Flop to Counters - II |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 49 - Background: Operational Amplifiers - I |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 50 - Background: Operational Amplifiers - II |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 51 - Background: Operational Amplifiers - III |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 52 - Background: Operational Amplifiers - IV |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 53 - Inverting amplifier versus Schmitt Trigger |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 54 - Non-inverting amplifier versus Schmitt Trigger |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 55 - Difference amplifier - I |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 56 - Difference amplifier - II |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 57 - Difference amplifier - III |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 58 - Digital frequency meter |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 59 - Digital frequency meter and Schmitt Trigger |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 60 - Schmitt Trigger |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 61 - Schmitt Trigger |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 62 - Digital frequency meter |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 63 - Linear ramp type digital voltmeter |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 64 - Dual slope digital voltmeter - I |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 65 - Dual slope digital voltmeter - II |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 66 - Dual slope digital voltmeter and Integrator circuit |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 67 - Digital ramp type voltmeter |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 68 - Digital ramp type voltmeter and Successive approximation type voltmeter |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 69 - ADC and DAC - I |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 70 - ADC and DAC - II |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 71 - Why we need electronic Instruments |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 72 - Instruments with op-amp based amplifiers - I |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 73 - Instruments with op-amp based amplifiers - II |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 74 - Instruments with op-amp based amplifiers - III |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 75 - Instrumentation Amplifier |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 76 - Function generator |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 77 - 555-Timer circuit |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 78 - Astable and monostable oscillator circuits |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 79 - Pulse generator |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 80 - Oscilloscope - I |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 81 - Oscilloscope - II |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 82 - Emitter follower voltmeter |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 83 - Linear ohmmeter |
| Link |
NOC:Electrical Measurement and Electronic Instruments |
Lecture 84 - Ramp generator |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 1 - Historical Development and Application |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 2 - Radar Bands and System Modeling |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 3 - Radar Equation |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 4 - Some Basic Concepts of Pulsed Radar |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 5 - Some Basic Concepts of Pulsed Radar (Continued...) |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 6 - Some Basic Concepts of Pulsed Radar (Continued...) |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 7 - Some Basic Concepts of Pulsed Radar (Continued...) |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 8 - Tutorial Problems on Basic Concepts of Radar - Part I |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 9 - Tutorial Problems on Basic Concepts of Radar - Part II |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 10 - CW Radar |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 11 - CW Radar Mathematical Model and Applications |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 12 - FM-CW Radar |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 13 - Double Frequency CW Radar |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 14 - Pulsed Radar |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 15 - MTI Filter |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 16 - Clutter and Single DLC |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 17 - Double DLC and Recursive MTI Filter |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 18 - Multiple prf MTI Radar |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 19 - Multiple prf MTI Radar and Clutter Attenuation |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 20 - MTI Improvement Factor |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 21 - Tutorial Problems on CW and Pulsed Radar - Part I |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 22 - Tutorial Problems on CW and Pulsed Radar - Part II |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 23 - Pulsed Doppler Radar |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 24 - Pulsed Doppler Radar (Continued...) and Search Radar |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 25 - Tracking Radar |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 26 - Tracking Radar (Continued...) |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 27 - Tracking Radar (Continued...) |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 28 - Tracking Radar (Continued...) |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 29 - Tracking Radar (Continued...) |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 30 - Tracking Radar (Continued...) |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 31 - Tracking Radar (Continued...) |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 32 - Tutorial Problems on Search and Tracking Radar |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 33 - Detection in Radar Receiver |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 34 - Detection in Radar Receiver (Continued...) |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 35 - Detection in Radar Receiver (Continued...) |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 36 - Detection in Radar Receiver (Continued...) |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 37 - Detection in Radar Receiver (Continued...) |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 38 - Detection in Radar Receiver (Continued...) |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 39 - Detection in Radar Receiver (Continued...) |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 40 - Detection in Radar Receiver (Continued...) |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 41 - Detection in Radar Receiver (Continued...) |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 42 - Detection in Radar Receiver (Continued...) |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 43 - Detection in Radar Receiver (Continued...) |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 44 - Detection in Radar Receiver (Continued...) |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 45 - Detection in Radar Receiver (Continued...) |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 46 - Detection in Radar Receiver (Continued...) |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 47 - Tutorial Problems on Detection in Radar Receiver |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 48 - SAR Processing |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 49 - SAR Processing (Continued...) |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 50 - SAR Processing (Continued...) |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 51 - SAR Processor |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 52 - Tutorial |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 53 - Statistical Detection Theory: Introduction |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 54 - Statistical Detection Theory (Continued...) |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 55 - Statistical Detection Theory (Continued...) |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 56 - Statistical Detection Theory (Continued...) |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 57 - Statistical Detection Theory (Continued...) |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 58 - Tutorial |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 59 - Ground Penetrating Radar |
| Link |
NOC:Principles and Techniques of Modern Radar Systems |
Lecture 60 - GPR Measurements and Microwave Tomography |
| Link |
NOC:Electrical Machines-I |
Lecture 1 - Magnetic Circuit and Transformer |
| Link |
NOC:Electrical Machines-I |
Lecture 2 - Magnetising Current from B-H Curve |
| Link |
NOC:Electrical Machines-I |
Lecture 3 - Ideal Transformer, Dot Convention and Phasor Diagram |
| Link |
NOC:Electrical Machines-I |
Lecture 4 - Operation of Ideal Operation with Load Connected |
| Link |
NOC:Electrical Machines-I |
Lecture 5 - Equivalent Circuit of Ideal Transformer |
| Link |
NOC:Electrical Machines-I |
Lecture 6 - Rating of Single Phase Transformer: Rated Current and Rated Voltage with Example |
| Link |
NOC:Electrical Machines-I |
Lecture 7 - Transformer with Multiple Coils |
| Link |
NOC:Electrical Machines-I |
Lecture 8 - Modelling of Practical Transformer - I |
| Link |
NOC:Electrical Machines-I |
Lecture 9 - Modelling of Practical Transformer - II |
| Link |
NOC:Electrical Machines-I |
Lecture 10 - Modelling of Practical Transformer - III |
| Link |
NOC:Electrical Machines-I |
Lecture 11 - Core Loss - Eddy Current Loss |
| Link |
NOC:Electrical Machines-I |
Lecture 12 - Factors on Eddy Current Loss Depends |
| Link |
NOC:Electrical Machines-I |
Lecture 13 - Hysteresis Loss |
| Link |
NOC:Electrical Machines-I |
Lecture 14 - Exact Equivalent Circuit |
| Link |
NOC:Electrical Machines-I |
Lecture 15 - Approximate Equivalent Circuit |
| Link |
NOC:Electrical Machines-I |
Lecture 16 - Determination of Equivalent Circuit Parameters - No Load Test |
| Link |
NOC:Electrical Machines-I |
Lecture 17 - Short Circuit Test |
| Link |
NOC:Electrical Machines-I |
Lecture 18 - Choosing Sides to Carry Out O.C / S.C Test |
| Link |
NOC:Electrical Machines-I |
Lecture 19 - Efficiency of Transformer - Losses |
| Link |
NOC:Electrical Machines-I |
Lecture 20 - Efficiency (Continued...) |
| Link |
NOC:Electrical Machines-I |
Lecture 21 - Condition for Maximum Efficiency When Load Power Factor Constant |
| Link |
NOC:Electrical Machines-I |
Lecture 22 - Family of Efficiency Curve at Various Power Factor and Energy Efficiency |
| Link |
NOC:Electrical Machines-I |
Lecture 23 - Load Description and Energy Efficiency |
| Link |
NOC:Electrical Machines-I |
Lecture 24 - Regulation: its Expression |
| Link |
NOC:Electrical Machines-I |
Lecture 25 - Regulation: its Expression (Continued...) |
| Link |
NOC:Electrical Machines-I |
Lecture 26 - Auto Transformer - Introduction |
| Link |
NOC:Electrical Machines-I |
Lecture 27 - AutoTransformer versus Two Winding Transformer |
| Link |
NOC:Electrical Machines-I |
Lecture 28 - AutoTransformer versus Two Winding Transformer (Continued...) |
| Link |
NOC:Electrical Machines-I |
Lecture 29 - Numerical Problems on Ideal Auto Transformer |
| Link |
NOC:Electrical Machines-I |
Lecture 30 - Two Winding Transformer Connected as Auto Transformer |
| Link |
NOC:Electrical Machines-I |
Lecture 31 - Practical Auto Transformer |
| Link |
NOC:Electrical Machines-I |
Lecture 32 - Equivalent Circuit of an Auto Transformer |
| Link |
NOC:Electrical Machines-I |
Lecture 33 - Polarity Test and Sumpner Test |
| Link |
NOC:Electrical Machines-I |
Lecture 34 - 3 Phase Transformer Using 3 Single Phase Transformer |
| Link |
NOC:Electrical Machines-I |
Lecture 35 - Various Connections of 3-Phase Transformer - I |
| Link |
NOC:Electrical Machines-I |
Lecture 36 - Various Connections of 3-Phase Transformer - II |
| Link |
NOC:Electrical Machines-I |
Lecture 37 - Vector Group of 3-Phase Transformer |
| Link |
NOC:Electrical Machines-I |
Lecture 38 - Vector Group (Continued...) |
| Link |
NOC:Electrical Machines-I |
Lecture 39 - Open Delta Connection |
| Link |
NOC:Electrical Machines-I |
Lecture 40 - 3-Phase Cone Type and Shell Type Transformer |
| Link |
NOC:Electrical Machines-I |
Lecture 41 - Zig Zag Connection |
| Link |
NOC:Electrical Machines-I |
Lecture 42 - Effect 3rd Harmonic Exciting Current and Flux |
| Link |
NOC:Electrical Machines-I |
Lecture 43 - Choosing Transformer Connection |
| Link |
NOC:Electrical Machines-I |
Lecture 44 - Choosing Transformer Connection (Continued...) |
| Link |
NOC:Electrical Machines-I |
Lecture 45 - Phase Conversion using Transformer: Scott Connection |
| Link |
NOC:Electrical Machines-I |
Lecture 46 - Scott Connection (Continued...) |
| Link |
NOC:Electrical Machines-I |
Lecture 47 - 3 Phase to 6 Phase Conversion O.C / S.C Test on 3 Phase Transformer |
| Link |
NOC:Electrical Machines-I |
Lecture 48 - Parallel Operation of Transformers - I |
| Link |
NOC:Electrical Machines-I |
Lecture 49 - Parallel Operation of Transformers - II |
| Link |
NOC:Electrical Machines-I |
Lecture 50 - Parallel Operation of Transformers - III |
| Link |
NOC:Electrical Machines-I |
Lecture 51 - Specific Magnetic and Electric Loadings |
| Link |
NOC:Electrical Machines-I |
Lecture 52 - ooling of Transformer and Fillings of Transformer |
| Link |
NOC:Electrical Machines-I |
Lecture 53 - Output Equation of 3- Phase Transformer |
| Link |
NOC:Electrical Machines-I |
Lecture 54 - Introduction to D.C Machine |
| Link |
NOC:Electrical Machines-I |
Lecture 55 - Single Conductor D.C Generator / Motor Operation |
| Link |
NOC:Electrical Machines-I |
Lecture 56 - Homopolar D.C Generator |
| Link |
NOC:Electrical Machines-I |
Lecture 57 - Homopolar D.C Motor |
| Link |
NOC:Electrical Machines-I |
Lecture 58 - Introduction to Rotating D.C Machines |
| Link |
NOC:Electrical Machines-I |
Lecture 59 - Armature Winding of D.C Machine - I |
| Link |
NOC:Electrical Machines-I |
Lecture 60 - Armature Winding of D.C Machine - II |
| Link |
NOC:Electrical Machines-I |
Lecture 61 - Armature Winding of D.C Machine - III |
| Link |
NOC:Electrical Machines-I |
Lecture 62 - Generated Voltage Across the Armature |
| Link |
NOC:Electrical Machines-I |
Lecture 63 - Electromagnetic Troque in D.C Machine |
| Link |
NOC:Electrical Machines-I |
Lecture 64 - Generator and Motor Operation - Basics |
| Link |
NOC:Electrical Machines-I |
Lecture 65 - O.C.C and Load Characteristic of Separately Excited Generators |
| Link |
NOC:Electrical Machines-I |
Lecture 66 - Voltage Build Up in Shunt Generator |
| Link |
NOC:Electrical Machines-I |
Lecture 67 - Load Characteristic of Shunt Generator |
| Link |
NOC:Electrical Machines-I |
Lecture 68 - Qualitative Discussion on Armature Reaction |
| Link |
NOC:Electrical Machines-I |
Lecture 69 - Ill Effects of Armature Reaction |
| Link |
NOC:Electrical Machines-I |
Lecture 70 - Compensating and Interpoles |
| Link |
NOC:Electrical Machines-I |
Lecture 71 - Armature Reaction (Continued...) |
| Link |
NOC:Electrical Machines-I |
Lecture 72 - Field Flux Density, Armature Flux Density and Resultant Field Distribution |
| Link |
NOC:Electrical Machines-I |
Lecture 73 - Field Patterns for Both Motor and Generators |
| Link |
NOC:Electrical Machines-I |
Lecture 74 - Demagnetising and Cross Magnetising mmf for Brush Shifted Machine |
| Link |
NOC:Electrical Machines-I |
Lecture 75 - Calculation of Compensating, Interpole and Series Field Turns |
| Link |
NOC:Electrical Machines-I |
Lecture 76 - Estimating Armature and Field Resistance from its Rating |
| Link |
NOC:Electrical Machines-I |
Lecture 77 - Power Flow Diagram, Rotational Loss |
| Link |
NOC:Electrical Machines-I |
Lecture 78 - Shunt Motor: Basic Equation |
| Link |
NOC:Electrical Machines-I |
Lecture 79 - Starting of D.C Motor - 3-Point Starter |
| Link |
NOC:Electrical Machines-I |
Lecture 80 - Speed Control of Shunt Motor - I |
| Link |
NOC:Electrical Machines-I |
Lecture 81 - Speed Control of Shunt Motor - II |
| Link |
NOC:Electrical Machines-I |
Lecture 82 - Speed Control of Shunt Motor - III |
| Link |
NOC:Electrical Machines-I |
Lecture 83 - Field Control (Continued...) |
| Link |
NOC:Electrical Machines-I |
Lecture 84 - D.C Motor Braking |
| Link |
NOC:Electrical Machines-I |
Lecture 85 - Introduction to Series Motor |
| Link |
NOC:Electrical Machines-I |
Lecture 86 - Series Motor Characteristics |
| Link |
NOC:Electrical Machines-I |
Lecture 87 - Series Motor Speed Control |
| Link |
NOC:Electrical Machines-I |
Lecture 88 - Universal Motor |
| Link |
NOC:Electrical Machines-I |
Lecture 89 - Swinburne Test |
| Link |
NOC:Electrical Machines-I |
Lecture 90 - Hopkinson Test |
| Link |
NOC:Electrical Machines-I |
Lecture 91 - Efficiency Calculation |
| Link |
NOC:Electrical Machines-I |
Lecture 92 - Field Test on D.C Series Motor |
| Link |
NOC:Electrical Machines-I |
Lecture 93 - Simplex Wave winding |
| Link |
NOC:Electrical Machines-I |
Lecture 94 - Wave Winding (Continued...) |
| Link |
NOC:VLSI Signal Processing |
Lecture 1 - Graphical Representation of Signals |
| Link |
NOC:VLSI Signal Processing |
Lecture 2 - Signal Flow Graph |
| Link |
NOC:VLSI Signal Processing |
Lecture 3 - Data Flow Graph, Critical Path |
| Link |
NOC:VLSI Signal Processing |
Lecture 4 - Dependence Graph, Basics of Retiming |
| Link |
NOC:VLSI Signal Processing |
Lecture 5 - Retiming Theorem |
| Link |
NOC:VLSI Signal Processing |
Lecture 6 - Forward Path and Loop Retiming |
| Link |
NOC:VLSI Signal Processing |
Lecture 7 - Loop Bound and Iteration Bound |
| Link |
NOC:VLSI Signal Processing |
Lecture 8 - Cutset Retiming |
| Link |
NOC:VLSI Signal Processing |
Lecture 9 - Retiming IIR Filters |
| Link |
NOC:VLSI Signal Processing |
Lecture 10 - Adaptive Filter Basics (LMS Algorithm) |
| Link |
NOC:VLSI Signal Processing |
Lecture 11 - Retiming LMS |
| Link |
NOC:VLSI Signal Processing |
Lecture 12 - Retiming Delayed LMS |
| Link |
NOC:VLSI Signal Processing |
Lecture 13 - Parallel Processing in DSP by Unfolding |
| Link |
NOC:VLSI Signal Processing |
Lecture 14 - Basic Unfolding Relation |
| Link |
NOC:VLSI Signal Processing |
Lecture 15 - Retiming for Unfolding |
| Link |
NOC:VLSI Signal Processing |
Lecture 16 - Loop Unfolding |
| Link |
NOC:VLSI Signal Processing |
Lecture 17 - Iteration bound for Loops |
| Link |
NOC:VLSI Signal Processing |
Lecture 18 - Bitserial, Digit serial and Word serial Structures |
| Link |
NOC:VLSI Signal Processing |
Lecture 19 - Unfolding a Switch |
| Link |
NOC:VLSI Signal Processing |
Lecture 20 - Unfolding Bit Serial Systems |
| Link |
NOC:VLSI Signal Processing |
Lecture 21 - Folding of DFG |
| Link |
NOC:VLSI Signal Processing |
Lecture 22 - Folding Examples - IIR Filter |
| Link |
NOC:VLSI Signal Processing |
Lecture 23 - Retiming for Folding |
| Link |
NOC:VLSI Signal Processing |
Lecture 24 - Introduction to Delay Optimization by Folding |
| Link |
NOC:VLSI Signal Processing |
Lecture 25 - Life Time Analysis of Storage Variables |
| Link |
NOC:VLSI Signal Processing |
Lecture 26 - Foward Backward Data Allocation |
| Link |
NOC:VLSI Signal Processing |
Lecture 27 - Life Time Analysis of Storage Variables in a Digital Filter |
| Link |
NOC:VLSI Signal Processing |
Lecture 28 - Delay Folded Realization of a Digital Filter |
| Link |
NOC:VLSI Signal Processing |
Lecture 29 - Polyphase Decomposition of Sequences |
| Link |
NOC:VLSI Signal Processing |
Lecture 30 - Hardware Efficient 2 - Parallel FIR Filters |
| Link |
NOC:VLSI Signal Processing |
Lecture 31 - Hardware Efficient 3 - Parallel FIR Filters |
| Link |
NOC:VLSI Signal Processing |
Lecture 32 - Introduction to First Level Architectures |
| Link |
NOC:VLSI Signal Processing |
Lecture 33 - 2's Complement Number Systems |
| Link |
NOC:VLSI Signal Processing |
Lecture 34 - Multiplication of Two Binary Numbers |
| Link |
NOC:VLSI Signal Processing |
Lecture 35 - Carry Ripple and Carry Save Array |
| Link |
NOC:VLSI Signal Processing |
Lecture 36 - Bit Serial Multipliers |
| Link |
NOC:VLSI Signal Processing |
Lecture 37 - Bit Serial Digital Filters |
| Link |
NOC:VLSI Signal Processing |
Lecture 38 - Baugh Wooley Multiplier |
| Link |
NOC:VLSI Signal Processing |
Lecture 39 - Distributed Arithmetic |
| Link |
NOC:Analog Electronic Circuits |
Lecture 1 - Introduction to the course |
| Link |
NOC:Analog Electronic Circuits |
Lecture 2 - Introduction to the constituent topics of the course and the Layout |
| Link |
NOC:Analog Electronic Circuits |
Lecture 3 - Revisit to pre-requisite topics |
| Link |
NOC:Analog Electronic Circuits |
Lecture 4 - Revisit to pre-requisite topics (Continued...) |
| Link |
NOC:Analog Electronic Circuits |
Lecture 5 - Analysis of Simple Non-Linear Circuit |
| Link |
NOC:Analog Electronic Circuits |
Lecture 6 - Analysis of Simple Non-linear Circuit (Continued...) |
| Link |
NOC:Analog Electronic Circuits |
Lecture 7 - Revisiting BJT Characteristic |
| Link |
NOC:Analog Electronic Circuits |
Lecture 8 - Revisiting BJT Characteristics (Continued...) |
| Link |
NOC:Analog Electronic Circuits |
Lecture 9 - Revisiting BJT Characteristics (Continued...) |
| Link |
NOC:Analog Electronic Circuits |
Lecture 10 - Revisiting MOSFET |
| Link |
NOC:Analog Electronic Circuits |
Lecture 11 - Revisiting MOSFET (Continued...) |
| Link |
NOC:Analog Electronic Circuits |
Lecture 12 - Revisiting MOSFET (Continued...) |
| Link |
NOC:Analog Electronic Circuits |
Lecture 13 - Revisiting MOSFET (Continued...) |
| Link |
NOC:Analog Electronic Circuits |
Lecture 14 - Analysis of simple non-linear circuit containing a BJT |
| Link |
NOC:Analog Electronic Circuits |
Lecture 15 - Analysis of simple non-linear circuit containing a BJT (Continued...) |
| Link |
NOC:Analog Electronic Circuits |
Lecture 16 - Analysis of simple non-linear circuit containing a MOSFET |
| Link |
NOC:Analog Electronic Circuits |
Lecture 17 - Analysis of simple non-linear circuit containing a MOSFET (Continued...) |
| Link |
NOC:Analog Electronic Circuits |
Lecture 18 - Linearization of non-linear circuit containing BJT |
| Link |
NOC:Analog Electronic Circuits |
Lecture 19 - Linearization of non-linear circuit containing BJT (Continued...) |
| Link |
NOC:Analog Electronic Circuits |
Lecture 20 - Linearization of non-linear circuit containing MOSFET |
| Link |
NOC:Analog Electronic Circuits |
Lecture 21 - Linearization of non-linear circuit containing MOSFET (Continued...) |
| Link |
NOC:Analog Electronic Circuits |
Lecture 22 - Linear models of Amplifiers - Part A |
| Link |
NOC:Analog Electronic Circuits |
Lecture 23 - Linear models of Amplifiers - Part B |
| Link |
NOC:Analog Electronic Circuits |
Lecture 24 - Common Emitter Amplifier - Part A |
| Link |
NOC:Analog Electronic Circuits |
Lecture 25 - Common Emitter Amplifier - Part B |
| Link |
NOC:Analog Electronic Circuits |
Lecture 26 - Common Emitter Amplifier (Continued...) - Part A |
| Link |
NOC:Analog Electronic Circuits |
Lecture 27 - Common Emitter Amplifier (Continued...) - Part B |
| Link |
NOC:Analog Electronic Circuits |
Lecture 28 - Common Emitter Amplifier (Continued...) - Numerical examples - Part A |
| Link |
NOC:Analog Electronic Circuits |
Lecture 29 - Common Emitter Amplifier (Continued...) - Numerical examples - Part B |
| Link |
NOC:Analog Electronic Circuits |
Lecture 30 - Common Emitter Amplifier (Continued...) - Design guidelines - Part A |
| Link |
NOC:Analog Electronic Circuits |
Lecture 31 - Common Emitter Amplifier (Continued...) - Design guidelines - Part B |
| Link |
NOC:Analog Electronic Circuits |
Lecture 32 - Common Source Amplifier - Part A |
| Link |
NOC:Analog Electronic Circuits |
Lecture 33 - Common Source Amplifier - Part B |
| Link |
NOC:Analog Electronic Circuits |
Lecture 34 - Common Source Amplifier (Continued...) Numerical examples and design guidelines - Part B |
| Link |
NOC:Analog Electronic Circuits |
Lecture 35 - Frequency Response of CE and CS Amplifiers - Part A |
| Link |
NOC:Analog Electronic Circuits |
Lecture 36 - Frequency Response of CE and CS Amplifiers - Part B |
| Link |
NOC:Analog Electronic Circuits |
Lecture 37 - Frequency Response of CE and CS Amplifiers - Part C |
| Link |
NOC:Analog Electronic Circuits |
Lecture 38 - Frequency Response of CE and CS Amplifiers (Continued...) - Part A |
| Link |
NOC:Analog Electronic Circuits |
Lecture 39 - Frequency Response of CE And CS Amplifiers (Continued...) - Part B |
| Link |
NOC:Analog Electronic Circuits |
Lecture 40 - Frequency Response of CE/CS Amplifiers Considering High Frequency Models of BJT and MOSFET - Part A |
| Link |
NOC:Analog Electronic Circuits |
Lecture 41 - Frequency Response of CE/CS Amplifiers Considering High Frequency Models of BJT and MOSFET - Part B |
| Link |
NOC:Analog Electronic Circuits |
Lecture 42 - Frequency Response of CE/CS Amplifiers Considering High Frequency Models of BJT And MOSFET - Part C |
| Link |
NOC:Analog Electronic Circuits |
Lecture 43 - Limitation of CE and CS Amplifiers in Cascading |
| Link |
NOC:Analog Electronic Circuits |
Lecture 44 - Common Collector and Common Drain Amplifiers |
| Link |
NOC:Analog Electronic Circuits |
Lecture 45 - Common Collector and Common Drain Amplifiers (Continued...): Analysis - Part A |
| Link |
NOC:Analog Electronic Circuits |
Lecture 46 - Common Collector and Common Drain Amplifiers (Continued...): Analysis - Part B |
| Link |
NOC:Analog Electronic Circuits |
Lecture 47 - Common Collector and Common Drain Amplifiers (Continued...): Numerical Examples - Part A |
| Link |
NOC:Analog Electronic Circuits |
Lecture 48 - Common Collector and Common Drain Amplifiers (Continued...): Numerical Examples - Part B |
| Link |
NOC:Analog Electronic Circuits |
Lecture 49 - Common Base and Common Gate Amplifiers : Analysis - Part A |
| Link |
NOC:Analog Electronic Circuits |
Lecture 50 - Common Base and Common Gate Amplifiers : Analysis - Part B |
| Link |
NOC:Analog Electronic Circuits |
Lecture 51 - Common Base and Common Gate Amplifiers (Continued...) : Numerical Examples - Part A |
| Link |
NOC:Analog Electronic Circuits |
Lecture 52 - Common Base and Common Gate Amplifiers (Continued...) : Numerical Examples - Part B |
| Link |
NOC:Analog Electronic Circuits |
Lecture 53 - Common Base and Common Gate Amplifiers (Continued...) : Numerical Examples - Part C |
| Link |
NOC:Analog Electronic Circuits |
Lecture 54 - Common Base and Common Gate Amplifiers (Continued...) : Numerical Examples - Part D |
| Link |
NOC:Analog Electronic Circuits |
Lecture 55 - Multi-Transistor Amplifiers: Operation and Analysis - Part A |
| Link |
NOC:Analog Electronic Circuits |
Lecture 56 - Multi-Transistor Amplifiers: Operation and Analysis - Part B |
| Link |
NOC:Analog Electronic Circuits |
Lecture 57 - Multi-Transistor Amplifiers: Operation and Analysis - Part C |
| Link |
NOC:Analog Electronic Circuits |
Lecture 58 - Multi-Transistor Amplifiers (Continued...): Numerical Examples - Part A |
| Link |
NOC:Analog Electronic Circuits |
Lecture 59 - Multi-Transistor Amplifiers (Continued...): Numerical Examples - Part B |
| Link |
NOC:Analog Electronic Circuits |
Lecture 60 - Multi-Transistor Amplifiers (Continued...): Numerical Examples - Part C |
| Link |
NOC:Analog Electronic Circuits |
Lecture 61 - Multi-Transistor Amplifiers: Cascode Amplifier - Part A |
| Link |
NOC:Analog Electronic Circuits |
Lecture 62 - Multi-Transistor Amplifiers: Cascode Amplifier - Part B |
| Link |
NOC:Analog Electronic Circuits |
Lecture 63 - Multi-Transistor Amplifiers: Cascode Amplifier (Continued...) - Numerical Examples - Part A |
| Link |
NOC:Analog Electronic Circuits |
Lecture 64 - Multi-Transistor Amplifiers: Cascode Amplifier (Continued...) - Numerical Examples - Part B |
| Link |
NOC:Analog Electronic Circuits |
Lecture 65 - Multi-Transistor Amplifiers: Cascode Amplifier (Continued...) - Numerical Examples - Part C |
| Link |
NOC:Analog Electronic Circuits |
Lecture 66 - Multi-Transistor Amplifiers: Amplifier With Active Load - Part A |
| Link |
NOC:Analog Electronic Circuits |
Lecture 67 - Multi-Transistor Amplifiers: Amplifier With Active Load - Part B |
| Link |
NOC:Analog Electronic Circuits |
Lecture 68 - Multi-Transistor Amplifiers: Amplifier With Active Load (Continued...) - Numerical Examples - Part A |
| Link |
NOC:Analog Electronic Circuits |
Lecture 69 - Multi-Transistor Amplifiers: Amplifier With Active Load (Continued...) - Numerical Examples - Part B |
| Link |
NOC:Analog Electronic Circuits |
Lecture 70 - Single-ended Vs Differential Signaling and Basic Model of a Differential Amplifier |
| Link |
NOC:Analog Electronic Circuits |
Lecture 71 - Single-ended Vs Differential Signaling and Basic Model of a Differential Amplifier (Continued...) |
| Link |
NOC:Analog Electronic Circuits |
Lecture 72 - Single-ended Vs Differential Signaling and Basic Model of a Differential Amplifier (Continued...) |
| Link |
NOC:Analog Electronic Circuits |
Lecture 73 - Single-ended Vs Differential Signaling and Basic Model of a Differential Amplifier (Continued...) |
| Link |
NOC:Analog Electronic Circuits |
Lecture 74 - Single-ended Vs Differential Signaling and Basic Model of a Differential Amplifier (Continued...) |
| Link |
NOC:Analog Electronic Circuits |
Lecture 75 - Differential Amplifier : Basic Structure and Principle of Operation |
| Link |
NOC:Analog Electronic Circuits |
Lecture 76 - Differential Amplifier : Basic Structure and Principle of Operation (Continued...) |
| Link |
NOC:Analog Electronic Circuits |
Lecture 77 - Differential Amplifier : Analysis and Numerical Examples |
| Link |
NOC:Analog Electronic Circuits |
Lecture 78 - Differential Amplifier : Analysis and Numerical Examples (Continued...) |
| Link |
NOC:Analog Electronic Circuits |
Lecture 79 - Differential Amplifier : Analysis and Numerical Examples (Continued...) |
| Link |
NOC:Analog Electronic Circuits |
Lecture 80 - Differential Amplifier : Analysis and Numerical Examples (Continued...) |
| Link |
NOC:Analog Electronic Circuits |
Lecture 81 - Current mirror circuits - Part A |
| Link |
NOC:Analog Electronic Circuits |
Lecture 82 - Current mirror circuits - Part B |
| Link |
NOC:Analog Electronic Circuits |
Lecture 83 - Usage of current mirror - Part A |
| Link |
NOC:Analog Electronic Circuits |
Lecture 84 - Usage of current mirror - Part B |
| Link |
NOC:Analog Electronic Circuits |
Lecture 85 - Usage of current mirror - Part C |
| Link |
NOC:Analog Electronic Circuits |
Lecture 86 - Numerical examples on current mirror and its applications - Part A |
| Link |
NOC:Analog Electronic Circuits |
Lecture 87 - Numerical examples on current mirror and its applications - Part B |
| Link |
NOC:Analog Electronic Circuits |
Lecture 88 - Numerical examples on current mirror and its applications - Part C |
| Link |
NOC:Analog Electronic Circuits |
Lecture 89 - Numerical examples on current mirror and its applications - Part D |
| Link |
NOC:Analog Electronic Circuits |
Lecture 90 - Feedback system - Part A |
| Link |
NOC:Analog Electronic Circuits |
Lecture 91 - Feedback system - Part B |
| Link |
NOC:Analog Electronic Circuits |
Lecture 92 - Feedback system - Part C |
| Link |
NOC:Analog Electronic Circuits |
Lecture 93 - Feedback system - Part D |
| Link |
NOC:Analog Electronic Circuits |
Lecture 94 - Feedback system - Part E |
| Link |
NOC:Analog Electronic Circuits |
Lecture 95 - Effect of feedback on frequency response - Part A |
| Link |
NOC:Analog Electronic Circuits |
Lecture 96 - Effect of feedback on frequency response - Part B |
| Link |
NOC:Analog Electronic Circuits |
Lecture 97 - Applications of feedback in amplifier circuits - Part A |
| Link |
NOC:Analog Electronic Circuits |
Lecture 98 - Applications of feedback in amplifier circuits - Part B |
| Link |
NOC:Analog Electronic Circuits |
Lecture 99 - Applications of feedback in amplifier circuits - Part C |
| Link |
NOC:Network Analysis |
Lecture 1 - Introduction: KVL, KCL and Power Balance |
| Link |
NOC:Network Analysis |
Lecture 2 - Voltage and Current Sources |
| Link |
NOC:Network Analysis |
Lecture 3 - Simple Networks with Voltage and Current Sources |
| Link |
NOC:Network Analysis |
Lecture 4 - Mesh Analysis - I |
| Link |
NOC:Network Analysis |
Lecture 5 - Mesh Analysis - II |
| Link |
NOC:Network Analysis |
Lecture 6 - Nodal Analysis - I |
| Link |
NOC:Network Analysis |
Lecture 7 - Nodal Analysis - II |
| Link |
NOC:Network Analysis |
Lecture 8 - Nodal Analysis - III |
| Link |
NOC:Network Analysis |
Lecture 9 - Inductor - I |
| Link |
NOC:Network Analysis |
Lecture 10 - Initial Condition for Inductor |
| Link |
NOC:Network Analysis |
Lecture 11 - Energy Stored in Inductor with Example |
| Link |
NOC:Network Analysis |
Lecture 12 - R-L Series Circuit Analysis |
| Link |
NOC:Network Analysis |
Lecture 13 - Retrieving Energy or Discharging of Inductor Energy |
| Link |
NOC:Network Analysis |
Lecture 14 - Capacitor: Relationship of Voltage and Current and Initial Condition |
| Link |
NOC:Network Analysis |
Lecture 15 - Charging of a Capacitor - Voltage, Current and Energy During Charging |
| Link |
NOC:Network Analysis |
Lecture 16 - Discharge of a Charged Capacitor |
| Link |
NOC:Network Analysis |
Lecture 17 - Linearity of R,L,C - Inductor with Initial Current and Capacitor with Initial Voltage |
| Link |
NOC:Network Analysis |
Lecture 18 - General Method for Solving Linear Differential Equation - I |
| Link |
NOC:Network Analysis |
Lecture 19 - General Method for Solving Linear Differential Equation - II |
| Link |
NOC:Network Analysis |
Lecture 20 - General Method for Solving Linear Differential Equation - III |
| Link |
NOC:Network Analysis |
Lecture 21 - Problem Solving: Application |
| Link |
NOC:Network Analysis |
Lecture 22 - R-L Circuit with Sinusoidal Excitation |
| Link |
NOC:Network Analysis |
Lecture 23 - R-C Circuit with Sinusoidal Exponential |
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NOC:Network Analysis |
Lecture 24 - Solution Due to Exponential Forcing Function |
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NOC:Network Analysis |
Lecture 25 - Mesh and Nodal Analysis with Time Varying Source |
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NOC:Network Analysis |
Lecture 26 - Circuit Analysis with Phasor - I |
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NOC:Network Analysis |
Lecture 27 - Circuit Analysis with Phasor - II |
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NOC:Network Analysis |
Lecture 28 - Circuit Analysis with Phasor - III |
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NOC:Network Analysis |
Lecture 29 - Concept of Active and Reactive Power in A.C Circuit - I |
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NOC:Network Analysis |
Lecture 30 - Concept of Active and Reactive Power in A.C Circuit - II |
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NOC:Network Analysis |
Lecture 31 - Expression for Complex Power in A.C Circuit |
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NOC:Network Analysis |
Lecture 32 - Numerical Example |
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NOC:Network Analysis |
Lecture 33 - Mesh and Nodal Analysis in A.C Circuit, Introduction to Impulse Function |
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NOC:Network Analysis |
Lecture 34 - Odd and Even Functions, Relation between Unit Step and Impulse Function |
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NOC:Network Analysis |
Lecture 35 - Solution of Differential Equation with Impulse Excitation |
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NOC:Network Analysis |
Lecture 36 - Numerical Example when Excitation is Impulse |
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NOC:Network Analysis |
Lecture 37 - Self and Mutual Inductances - I |
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NOC:Network Analysis |
Lecture 38 - Dot Convention in Mutually Coupled Coils |
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NOC:Network Analysis |
Lecture 39 - Mutually Coupled Coils in Series and Parallel |
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NOC:Network Analysis |
Lecture 40 - Energy Stored in Mutually Coupled Coils |
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NOC:Network Analysis |
Lecture 41 - Steady State Response with Sinusoidal Excitation when the Coils are Mutually Coupled |
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NOC:Network Analysis |
Lecture 42 - Basics of Signals in Brief |
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NOC:Network Analysis |
Lecture 43 - Laplace Transform - I |
| Link |
NOC:Network Analysis |
Lecture 44 - Laplace Transform - II |
| Link |
NOC:Network Analysis |
Lecture 45 - Laplace Transform Applied to Circuit Analysis - I |
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NOC:Network Analysis |
Lecture 46 - Laplace Transform Applied to Circuit Analysis - II |
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NOC:Network Analysis |
Lecture 47 - Numerical Examples - I |
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NOC:Network Analysis |
Lecture 48 - Numerical Examples - II |
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NOC:Network Analysis |
Lecture 49 - General Second Order Circuit Analysis with L.T - I |
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NOC:Network Analysis |
Lecture 50 - General Second Order Circuit Analysis with L.T - II |
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NOC:Network Analysis |
Lecture 51 - Network Theorem - I |
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NOC:Network Analysis |
Lecture 52 - Network Theorem - II |
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NOC:Network Analysis |
Lecture 53 - Norton's Theorem |
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NOC:Network Analysis |
Lecture 54 - Thevenin Theorem |
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NOC:Network Analysis |
Lecture 55 - Star-Delta and Delta-Star Transformation |
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NOC:Network Analysis |
Lecture 56 - Telligen's Theorem |
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NOC:Network Analysis |
Lecture 57 - Reciprocity Theorem |
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NOC:Network Analysis |
Lecture 58 - Maximum Power Transfer Theorem |
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NOC:Network Analysis |
Lecture 59 - Graph Theory Applied to Network Analysis - I |
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NOC:Network Analysis |
Lecture 60 - Graph Theory Applied to Network Analysis - II |
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NOC:Network Analysis |
Lecture 61 - Graph Theory Applied to Network Analysis - III |
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NOC:Network Analysis |
Lecture 62 - Graph Theory Applied to Network Analysis - IV |
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NOC:Network Analysis |
Lecture 63 - Graph Theory Applied to Network Analysis - V |
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NOC:Network Analysis |
Lecture 64 - Mesh Analysis with Graph Theory |
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NOC:Network Analysis |
Lecture 65 - Nodal Analysis with Graph Theory |
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NOC:Network Analysis |
Lecture 66 - Cut-Set Analysis with Graph Theory |
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NOC:Network Analysis |
Lecture 67 - Numerical Examples of Network Analysis with Graph Theory |
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NOC:Network Analysis |
Lecture 68 - Circuit Analysis with Dependent Sources - I |
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NOC:Network Analysis |
Lecture 69 - Circuit Analysis with Dependent Sources - II |
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NOC:Network Analysis |
Lecture 70 - Circuit Analysis with Dependent Sources - III |
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NOC:Network Analysis |
Lecture 71 - Two Port Network - I |
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NOC:Network Analysis |
Lecture 72 - Two Port Network - II |
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NOC:Network Analysis |
Lecture 73 - Two Port Network - III |
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NOC:Network Analysis |
Lecture 74 - Two Port Network - IV |
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NOC:Network Analysis |
Lecture 75 - Two Port Network - V |
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NOC:Network Analysis |
Lecture 76 - Two Port Network - VI |
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NOC:Network Analysis |
Lecture 77 - Two Port Network - VII |
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NOC:Network Analysis |
Lecture 78 - Gyrator |
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NOC:Network Analysis |
Lecture 79 - Ideal Op - Amp |
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NOC:Network Analysis |
Lecture 80 - Examples of Ideal Op-Amp Circuits - I |
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NOC:Network Analysis |
Lecture 81 - Examples of Ideal Op-Amp Circuits - II |
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NOC:Network Analysis |
Lecture 82 - General Impedance Transfer Circuit and Concluding Remarks |
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NOC:Power System Protection |
Lecture 1 - Faults in Power System |
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NOC:Power System Protection |
Lecture 2 - Elements and Features of Protection Scheme |
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NOC:Power System Protection |
Lecture 3 - Fault Analysis Review - Sequence Components |
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NOC:Power System Protection |
Lecture 4 - Fault Analysis Review - Sequence Components (Continued...) |
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NOC:Power System Protection |
Lecture 5 - Numerical Relaying Concept |
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NOC:Power System Protection |
Lecture 6 - Discrete Fourier Transform |
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NOC:Power System Protection |
Lecture 7 - Recursive and Half Cycle DFT and Cosine Filter |
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NOC:Power System Protection |
Lecture 8 - Least Square Technique |
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NOC:Power System Protection |
Lecture 9 - Frequency Response of Phasor Estimation techniques |
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NOC:Power System Protection |
Lecture 10 - In the Presence of Decaying DC |
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NOC:Power System Protection |
Lecture 11 - Overcurrent Relay Characteristics |
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NOC:Power System Protection |
Lecture 12 - Overcurrent Relay Coordination |
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NOC:Power System Protection |
Lecture 13 - Relay Coordination with Fuse |
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NOC:Power System Protection |
Lecture 14 - Introduction to Directional Relaying |
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NOC:Power System Protection |
Lecture 15 - Positive Sequence Directional Relay |
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NOC:Power System Protection |
Lecture 16 - Negative and Zero Sequence Directional Relay |
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NOC:Power System Protection |
Lecture 17 - Superimposed Component Based Directional Relaying |
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NOC:Power System Protection |
Lecture 18 - Introduction to Distance Relay |
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NOC:Power System Protection |
Lecture 19 - Fault Classification |
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NOC:Power System Protection |
Lecture 20 - Apparent Impedance Calculation |
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NOC:Power System Protection |
Lecture 21 - Distance Relay Implementation |
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NOC:Power System Protection |
Lecture 22 - Application to Double Circuit Line |
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NOC:Power System Protection |
Lecture 23 - Multi-terminal Lines |
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NOC:Power System Protection |
Lecture 24 - Protection of series compensated lines - Part I |
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NOC:Power System Protection |
Lecture 25 - Protection of series compensated lines - Part II |
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NOC:Power System Protection |
Lecture 26 - Effect of Fault Resistance |
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NOC:Power System Protection |
Lecture 27 - Load Encroachment |
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NOC:Power System Protection |
Lecture 28 - Power Swing |
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NOC:Power System Protection |
Lecture 29 - Power Swing Detection Techniques - Part I |
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NOC:Power System Protection |
Lecture 30 - Power Swing Detection Techniques - Part II |
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NOC:Power System Protection |
Lecture 31 - Adaptive Distance Relaying |
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NOC:Power System Protection |
Lecture 32 - Communication Assisted Relaying Scheme |
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NOC:Power System Protection |
Lecture 33 - Current Transformer - Part I |
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NOC:Power System Protection |
Lecture 34 - Current Transformer - Part II |
| Link |
NOC:Power System Protection |
Lecture 35 - Capacitor Voltage Transformer |
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NOC:Power System Protection |
Lecture 36 - Fiber Optic Sensors |
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NOC:Power System Protection |
Lecture 37 - Introduction to Transformer Protection |
| Link |
NOC:Power System Protection |
Lecture 38 - Differential Relay |
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NOC:Power System Protection |
Lecture 39 - Steps in Differential Relay Processing |
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NOC:Power System Protection |
Lecture 40 - Inrush Detection |
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NOC:Power System Protection |
Lecture 41 - CT Saturation, Negative Sequence Differential and Restricted Earth Fault Relay |
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NOC:Power System Protection |
Lecture 42 - Line Differential - Part I |
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NOC:Power System Protection |
Lecture 43 - Line Differential - Part II |
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NOC:Power System Protection |
Lecture 44 - Busbar Protection |
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NOC:Power System Protection |
Lecture 45 - Fault Characteristics of Renewable Sources |
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NOC:Power System Protection |
Lecture 46 - Protection Challenges of Distribution Systems with Renewables |
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NOC:Power System Protection |
Lecture 47 - Protection challenges of transmission systems with renewables |
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NOC:Power System Protection |
Lecture 48 - Traveling Wave Basics |
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NOC:Power System Protection |
Lecture 49 - Protection using Travelling Waves |
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NOC:Power System Protection |
Lecture 50 - Fault Location using Travelling Wave |
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NOC:Power System Protection |
Lecture 51 - Wide Area Measurement Basics |
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NOC:Power System Protection |
Lecture 52 - Wide Area Measurement for Protection |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 1 - Tx- Rx Structure |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 2 - Rx -Structure |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 3 - Fundamental of Ray-Tracing model |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 4 - General channel model - Part I |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 5 - General channel model - Part I (Continued...) |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 6 - General channel model - Part I (Continued...) |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 7 - General channel model - Part II |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 8 - Wireless channel-A ray tracing model - Part II |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 9 - Wireless channel-A ray tracing model - Part II (Continued...) |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 10 - Wireless channel-A ray tracing model - Part II (Continued...) |
| Link |
NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 11 - Wireless channel-A ray tracing model - Part II (Continued...) |
| Link |
NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 12 - RMS Delay spread and Doppler Effect on channel |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 13 - Time Varing Model |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 14 - Doppler Impact on coherence BW |
| Link |
NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 15 - Introduction to time series |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 16 - AR,ARMA,MA process |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 17 - Doppler with AR process model |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 18 - Coherence time and parameter summery |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 19 - Basic ISI channel |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 20 - Channel estimation and Equalizer |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 21 - precoder and MIMO |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 22 - precoder and MIMO (Continued...) |
| Link |
NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 23 - Basics of mmwave spectrum |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 24 - Angle of arrival and angle of departure |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 25 - 3D concepts, AoA,AoD |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 26 - mmWave channel model with RX beaming |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 27 - mmWave channel model with RX beaming (Continued...) |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 28 - mmWave channel model with RX beaming (Continued...) |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 29 - mmWave channel model with RX beaming (Continued...) |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 30 - mmwave channel model (Continued...) |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 31 - mmWave channel model (Continued...) -Tx side multiple antenna |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 32 - Basics of Beamforming |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 33 - Single Antenna beamforming |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 34 - Concept of antenna many fold vector |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 35 - 3D Concept of antenna many fold vector |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 36 - Different Geometry of antennafrom electrical point of view |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 37 - Basics of Beamforming pattern - Part I |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 38 - Basics of Beamforming pattern - Part II |
| Link |
NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 39 - SISO Beamforming |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 40 - MIMO Beamforming |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 41 - Structural implementation of MIMO Beamforming |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 42 - Different Level of Beamforming |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 43 - MIMO Beamforming in Transmitter side |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 44 - MIMO Beamforming in Receiver side - Part I |
| Link |
NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 45 - MIMO Beamforming in Receiver side - Part II |
| Link |
NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 46 - Mathematical description of MIMO Beamforming (Continued...) |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 47 - Equalizer based detector |
| Link |
NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 48 - Parameter to be designed in MIMO Beamforming |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 49 - OFDM Data Model |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 50 - OFDM Data model (Continued...) |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 51 - General OFDM |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 52 - OFDM spectrum and CFO |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 53 - MIMO OFDM structure |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 54 - MIMO OFDM decode and beamforming |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 55 - Design parameter estimation - Part 1 |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 56 - Design parameter estimation - Part 2 |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 57 - Design parameter estimation - Part 3 |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 58 - Design parameter estimation - Part 4 |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 59 - Design parameter estimation - Part 5 |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 60 - MU System |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 61 - CFO and other impairment and their effects |
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NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 62 - Multi User Hybrid beam and impairment and analysis - Part 3 |
| Link |
NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 63 - Multi User Hybrid beam and Impairment and analysis - Part 4 |
| Link |
NOC:Signal Processing for mm Wave communication for 5G and beyond |
Lecture 64 - Multi User Hybrid beam and Impairment and analysis - Part 5 |
| Link |
NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 1 - DC Power Conversion Systems - Introduction |
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NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 2 - Overview of voltage regulators |
| Link |
NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 3 - Switched mode power converter (SMPC) |
| Link |
NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 4 - Model Development for MATLAB Simulation |
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NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 5 - Demonstration of MATLAB Simulation |
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NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 6 - Demonstration of MATLAB Simulation (Continued...) |
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NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 7 - Power Stage Design of Basic SMPCs: Summary |
| Link |
NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 8 - Fixed Frequency Modulation Techniques |
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NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 9 - Variable Frequency Modulation Techniques |
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NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 10 - Modulation in Discontinuous Conduction Mode (DCM) |
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NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 11 - Synchronizing Simulation and Script files in MATLAB |
| Link |
NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 12 - Interactive MATLAB Simulation and Case Studies |
| Link |
NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 13 - Converter’s Objectives and Control Implications |
| Link |
NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 14 - Feedforward Control in SMPC |
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NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 15 - Single and Multi Loop Feedback Control Methods |
| Link |
NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 16 - Feedback Control of Cascaded SMPCs |
| Link |
NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 17 - Combined feedback and feedforward control |
| Link |
NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 18 - State feedback control |
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NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 19 - Variable Frequency Control - Understanding Opportunities and Challenges |
| Link |
NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 20 - Constant On-time Control Methods |
| Link |
NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 21 - Constant Off-time Control Methods |
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NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 22 - Hysteresis Control Methods in SMPCs |
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NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 23 - Stability and Performance Comparison using MATLAB Simulation |
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NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 24 - Light Load Control Methods and Interactive MATLAB Simulation |
| Link |
NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 25 - Overview of Modeling Techniques |
| Link |
NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 26 - State space averaging and model validation |
| Link |
NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 27 - Circuit Averaging Techniques and Equivalent Circuit |
| Link |
NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 28 - DC Analysis using Equivalent Circuit Model |
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NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 29 - Derivation of Small-Signal Transfer Functions |
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NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 30 - Small-Signal Model Validation using MATLAB and Time Domain Correlation |
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NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 31 - Small-signal Modeling with Closed Current Loop |
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NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 32 - Impedance Analysis and Stability |
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NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 33 - Loop Gain Analysis and Understanding Model Limits using MATLAB |
| Link |
NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 34 - PID Control Design and Tuning under VMC with MATLAB Case Studies |
| Link |
NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 35 - Shaping Output Impedance of a Buck Converter under VMC |
| Link |
NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 36 - Design of VMC Boost Converter and MATLAB Design Case Studies |
| Link |
NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 37 - Accurate Small-signal Modelling under CMC and Verification using MATLAB |
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NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 38 - Design CMC in a Buck Converter and MATLAB based Model Validation |
| Link |
NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 39 - Design of CMC Boost Converter - Output and State Feedback Approaches |
| Link |
NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 40 - Loop Interactions in CMC and Design of Average CMC |
| Link |
NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 41 - Dynamics of SMPCs and Overview of Model-based Nonlinear Control |
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NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 42 - Dynamics of LTIs and Vector Field with MATLAB Demonstration |
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NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 43 - Geometric Perspectives of Eigenvalues and Eigenvectors in SMPCs |
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NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 44 - Small-signal and Large-signal Model based Nonlinear Control |
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NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 45 - Introduction to Sliding Mode Control in SMPCs |
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NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 46 - Sliding Mode Control Design in a Buck Converter |
| Link |
NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 47 - Boundary Control Techniques and Selection of Switching Surfaces |
| Link |
NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 48 - Time Optimal Control and Identifying Physical Limits in SMPCs |
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NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 49 - Linking Switching Boundary and PID Controller Structure in SMPCs |
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NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 50 - Large-Signal Controller Tuning in Buck Converter: Objectives and Derivations |
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NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 51 - Large-Signal Controller Tuning in Boost and Buck-Boost Converters |
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NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 52 - Large-Signal Controller Tuning in Fixed- and Variable-Frequency Control |
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NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 53 - Critical Performance Limits in Dynamic Voltage Scaling and Possible Solutions |
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NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 54 - Nonlinear Control vs. Large-Signal Tuning: Comparative Study using MATLAB |
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NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 55 - Small-Signal vs. Large-Signal Tuning: Comparison using MATLAB Simulation |
| Link |
NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 56 - Performance Improvement and Size Reduction using Large-Signal based Control |
| Link |
NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 57 - Digital Control in High Frequency SMPCs - Introduction and Motivations |
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NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 58 - Overview of Fixed and Variable Frequency Digital Control Architectures |
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NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 59 - Challenges and Opportunities in Digitally Controlled High Frequency SMPCs |
| Link |
NOC:Control and Tuning Methods in Switched Mode Power Converters |
Lecture 60 - Course Summary, Key Takeaways, Few Emerging Applications and Future Scopes |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 1 - Scattering Matrix Concepts |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 2 - Scattering Matrix Concepts (Continued...) |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 3 - Scattering Matrix Concepts (Continued...) |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 4 - Scattering Matrix Concepts (Continued...) |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 5 - Scattering Matrix Concepts Tutorials |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 6 - Scattering Matrix Concepts Tutorials (Continued...) |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 7 - Scattering Matrix Concepts Tutorials (Continued...) |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 8 - Instantaneous form of Maxwell’s equations |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 9 - Instantaneous form of Maxwell’s equations (Continued....) |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 10 - Instantaneous form of Maxwell’s equations (Continued...) |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 11 - Instantaneous form of Maxwell’s equations (Continued...) |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 12 - Instantaneous form of Maxwell’s equations (Continued...) |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 13 - Instantaneous form of Maxwell’s equations Tutorials |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 14 - Instantaneous form of Maxwell’s equations Tutorials (Continued...) |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 15 - Harmonic form of Maxwell’s equations |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 16 - Harmonic form of Maxwell’s equations (Continued...) |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 17 - Harmonic form of Maxwell’s equations (Continued...) |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 18 - Harmonic form of Maxwell’s equations Tutorials |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 19 - Wave Equation and Solution |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 20 - Relation between wavenumbers |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 21 - Radiation from an electric current source (Continued...) |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 22 - Radiation from an electric current source (Continued...) |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 23 - Radiation from an electric current source (Continued...) |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 24 - Wave Equation and Solution Tutorials |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 25 - Radiation from an electric current source Tutorials |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 26 - Radiation from a magnetic current source |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 27 - Radiation from a magnetic current source (Continued...) |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 28 - Radiation from a magnetic current source (Continued...) |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 29 - Application of the magnetic current source (Continued...) |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 30 - Radiation from a magnetic current source Tutorials |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 31 - Radiation from a magnetic current source Tutorials (Continued....) |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 32 - Rectangular waveguide - I |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 33 - Rectangular waveguide - I Tutorials |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 34 - Rectangular waveguide - II |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 35 - Rectangular waveguide - II (Continued...) |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 36 - Rectangular waveguide - II Tutorials |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 37 - Rectangular waveguide - II Tutorials (Continued...) |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 38 - Rectangular cavity resonator |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 39 - Rectangular cavity resonator Tutorials |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 40 - Rectangular cavity resonator Tutorials (Continued...) |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 41 - The Reciprocity Theorem, Computation of Amplitudes of Forward and Backward (Continued...) |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 42 - The Reciprocity Theorem, Computation of Amplitudes of Forward and Backward (Continued...) |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 43 - The Reciprocity Theorem, Computation of Amplitudes Tutorials |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 44 - The Reciprocity Theorem, Computation of Amplitudes Tutorials (Continued...) |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 45 - Analysis of Guided Structures |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 46 - Analysis of Guided Structures (Continued...) |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 47 - Analysis of Guided Structures (Continued...) |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 48 - Analysis of Guided Structures (Continued...) |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 49 - Analysis of Guided Structures (Continued...) |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 50 - Analysis of Guided Structures (Continued...) |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 51 - Analysis of Guided Structures (Continued...) |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 52 - Analysis of Guided Structures (Continued...) |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 53 - Analysis of Guided Structures (Continued...) |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 54 - Analysis of Guided Structures (Continued...) |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 55 - Analysis of Guided Structures (Continued...) |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 56 - Analysis of Guided Structures (Continued...) |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 57 - Analysis of Guided Structures Tutorials |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 58 - Analysis of Guided Structures Tutorials (Continued...) |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 59 - Cylindrical Wave Functions |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 60 - Cylindrical Wave Functions (Continued...) |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 61 - Cylindrical Wave Functions (Continued...) |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 62 - Circular Waveguide |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 63 - Circular Cavity |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 64 - Cylindrical Wave Functions Tutorials |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 65 - Cylindrical Wave Functions Tutorials (Continued...) |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 66 - Application to the Coupling Problem : Aperture-Coupled, Probe-Coupled and Waveguide |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 67 - Application to the Coupling Problem : Aperture-Coupled, Probe-Coupled and Waveguide (Continued...) |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 68 - Application to the Coupling Problem : Aperture-Coupled, Probe-Coupled and Waveguide (Continued...) |
| Link |
NOC:Advanced Microwave Guided-Structures and Analysis |
Lecture 69 - Application to the Coupling Problem : Aperture-Coupled, Probe-Coupled and Waveguide (Continued...) |
| Link |
NOC:Cognition and its Computation |
Lecture 1 - Introduction |
| Link |
NOC:Cognition and its Computation |
Lecture 2 - Historical Origin of Cognition Studies |
| Link |
NOC:Cognition and its Computation |
Lecture 3 - The Cognitive Revolution |
| Link |
NOC:Cognition and its Computation |
Lecture 4 - Anatomical Structures of the Brain |
| Link |
NOC:Cognition and its Computation |
Lecture 5 - Frontal Lobes and Cognition |
| Link |
NOC:Cognition and its Computation |
Lecture 6 - Neuropsychological Testing |
| Link |
NOC:Cognition and its Computation |
Lecture 7 - Eye Tracking and Cognition |
| Link |
NOC:Cognition and its Computation |
Lecture 8 - EEG, fMRI, MEG |
| Link |
NOC:Cognition and its Computation |
Lecture 9 - Single neuron level measurements |
| Link |
NOC:Cognition and its Computation |
Lecture 10 - Single Neuron Imaging and Manipulation of Neural Activity |
| Link |
NOC:Cognition and its Computation |
Lecture 11 - Introduction to Computation |
| Link |
NOC:Cognition and its Computation |
Lecture 12 - Currency of Computation in Neurobiology - Action Potential |
| Link |
NOC:Cognition and its Computation |
Lecture 13 - Synapse and Synaptic Transmission |
| Link |
NOC:Cognition and its Computation |
Lecture 14 - Synaptic Plasticity |
| Link |
NOC:Cognition and its Computation |
Lecture 15 - Short Term Plasticity and STDP |
| Link |
NOC:Cognition and its Computation |
Lecture 16 - Coding by neurons |
| Link |
NOC:Cognition and its Computation |
Lecture 17 - Sensory Circuits: Visual - I |
| Link |
NOC:Cognition and its Computation |
Lecture 18 - Sensory Circuits: Visual - II |
| Link |
NOC:Cognition and its Computation |
Lecture 19 - Sensory Circuits: Auditory - I |
| Link |
NOC:Cognition and its Computation |
Lecture 20 - Sensory Circuits: Auditory - II |
| Link |
NOC:Cognition and its Computation |
Lecture 21 - Sensory Circuits: Somatosensory |
| Link |
NOC:Cognition and its Computation |
Lecture 22 - Sensory Circuits: Olfactory and Gustatory |
| Link |
NOC:Cognition and its Computation |
Lecture 23 - Motor circuits - Sensory-motor |
| Link |
NOC:Cognition and its Computation |
Lecture 24 - Reward Circuits |
| Link |
NOC:Cognition and its Computation |
Lecture 25 - Executive Circuits |
| Link |
NOC:Cognition and its Computation |
Lecture 26 - Types of Attention, Theories Broadbent Triessman |
| Link |
NOC:Cognition and its Computation |
Lecture 27 - Alerting Orientation and Executive Network |
| Link |
NOC:Cognition and its Computation |
Lecture 28 - Disorders of Attention |
| Link |
NOC:Cognition and its Computation |
Lecture 29 - Basics of Perception - Object, Depth and Movement |
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NOC:Cognition and its Computation |
Lecture 30 - Constancy and Illusions |
| Link |
NOC:Cognition and its Computation |
Lecture 31 - Neurobiology of attention, Working Memory |
| Link |
NOC:Cognition and its Computation |
Lecture 32 - Cholinergic System, Bottom up and Top down |
| Link |
NOC:Cognition and its Computation |
Lecture 33 - Object Recognition |
| Link |
NOC:Cognition and its Computation |
Lecture 34 - Visual Search and Pattern Recognition |
| Link |
NOC:Cognition and its Computation |
Lecture 35 - Auditory Scene Analysis, McGurk Effect |
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NOC:Cognition and its Computation |
Lecture 36 - Learning Processes |
| Link |
NOC:Cognition and its Computation |
Lecture 37 - Learning Processes (Continued...) |
| Link |
NOC:Cognition and its Computation |
Lecture 38 - Memory |
| Link |
NOC:Cognition and its Computation |
Lecture 39 - Learning Disorders |
| Link |
NOC:Cognition and its Computation |
Lecture 40 - Memory Failure - Forgetting |
| Link |
NOC:Cognition and its Computation |
Lecture 41 - Learning in biological neural networks |
| Link |
NOC:Cognition and its Computation |
Lecture 42 - Examples |
| Link |
NOC:Cognition and its Computation |
Lecture 43 - Different types of Plasticity |
| Link |
NOC:Cognition and its Computation |
Lecture 44 - Developmental Plasticity/Learning/Critical Period |
| Link |
NOC:Cognition and its Computation |
Lecture 45 - Examples of Disorders in Plasticity |
| Link |
NOC:Cognition and its Computation |
Lecture 46 - Introduction to speech and language (Development) |
| Link |
NOC:Cognition and its Computation |
Lecture 47 - Components of Speech, Speech Production |
| Link |
NOC:Cognition and its Computation |
Lecture 48 - Speech Perception |
| Link |
NOC:Cognition and its Computation |
Lecture 49 - Lessons from Animal Communication |
| Link |
NOC:Cognition and its Computation |
Lecture 50 - Language and Thought - Speech Language Disorders |
| Link |
NOC:Cognition and its Computation |
Lecture 51 - Theories of Emotion |
| Link |
NOC:Cognition and its Computation |
Lecture 52 - Neurophysiology of emotions - Limbic System |
| Link |
NOC:Cognition and its Computation |
Lecture 53 - Problem Solving |
| Link |
NOC:Cognition and its Computation |
Lecture 54 - Decision Making |
| Link |
NOC:Cognition and its Computation |
Lecture 55 - Frontal cortex in decision making |
| Link |
NOC:Cognition and its Computation |
Lecture 56 - Topics in current research - I |
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NOC:Cognition and its Computation |
Lecture 57 - Topics in current research - II |
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NOC:Cognition and its Computation |
Lecture 58 - Topics in current research - III |
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NOC:Cognition and its Computation |
Lecture 59 - Topics in current research - IV |
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NOC:Cognition and its Computation |
Lecture 60 - Topics in current research - V |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 1 - Digital Control in Switched Mode Power Converters - Course Introduction |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 2 - Digital Control of SMPCs - Course Instructions, Guidelines and Resources |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 3 - Examples of Some Commercial Digital Control Solutions |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 4 - Overview of Digital Control Implementation Platforms |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 5 - Introducing Basic Digitization in Power Electronic Converters |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 6 - Recap of Feedback and Feedforward Control Methods in SMPCs |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 7 - Recap of Fixed and Variable Frequency Modulation Techniques |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 8 - Levels of Digitization in Single-loop Feedback Control in SMPCs |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 9 - Levels of Digitization in Multi-loop Feedback Control in SMPCs |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 10 - SMPC Topologies and Power Stage Design for Hardware Demonstrations |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 11 - Basics of Sampling under Fixed and Variable Frequency Modulation |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 12 - Voltage Mode Digital Pulse Width Modulators and Sampling Methods |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 13 - Overview of Digital Pulse Width Modulator Architectures |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 14 - Sampling Methods under Fixed Frequency Current Mode Control |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 15 - Overview of Fixed Frequency Current Mode Control Architectures |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 16 - Sampling Methods under Constant On/Off - Time Digital Modulation |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 17 - Constant On/Off- Time Mixed-Signal Current Mode Control Architectures |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 18 - Sampling Methods under Digital Hysteresis Control Methods |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 19 - Overview of Digital Hysteresis Control Architectures |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 20 - Summary of Digital Current Mode Control Architectures |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 21 - Recap of Voltage and Current Mode Control Implementation using MATLAB |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 22 - MATLAB Model Development for Basic Digital Control Blocks |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 23 - MATLAB Model Development for Fixed Frequency Digital Control |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 24 - MATLAB Models for Digital Controllers using Difference Equations |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 25 - MATLAB Model Development for Digital Voltage Mode Control |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 26 - MATLAB Model Development for Mixed-Signal Current Mode Control |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 27 - MATLAB Model Development for Fully Digital Current Mode Control |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 28 - MATLAB Model Development for Constant-On Time Control |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 29 - MATLAB Model Development for Constant-Off Time Control |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 30 - MATLAB Model Development for Digital Current Hysteresis Control |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 31 - Continuous-Time Small-Signal Modeling under Digital Control |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 32 - Discrete Time Modeling with Closed Current Loop |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 33 - State-Space Modeling and Steps For Deriving Discrete-Time Models |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 34 - Derivation of Discrete-Time Large-Signal Models |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 35 - Validation of Discrete-Time Large-Signal Models using MATLAB - Part I |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 36 - Validation of Discrete-Time Large-Signal Models using MATLAB - Part II |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 37 - Derivation of Discrete-Time Small-Signal Models - I |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 38 - Derivation of Discrete-Time Small-Signal Models - II |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 39 - Discrete-Time Transfer Functions and Closed Loop Block Diagrams |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 40 - Model Accuracy with MATLAB Case Studies - Comparative Study |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 41 - Continuous-Time to Discrete-Time Conversion Methods - A Summary |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 42 - Recap of Frequency Domain Design of Analog VMC and CMC |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 43 - Design under Digital Voltage Mode Control - Frequency Domain Approaches |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 44 - Design under Digital Current Mode Control - Frequency Domain Approaches |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 45 - Design Case Study and MATLAB Simulation of Digital Voltage Mode Control |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 46 - Design Case Study and MATLAB Simulation of Digital Current Mode Control |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 47 - Time Optimal Control of a Buck Converter and Identifying Performance Limits |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 48 - Trajectory based CMC Design for Proximate Time Optimal Recovery |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 49 - Trajectory based Digital CMC Tuning and MATLAB Case Studies |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 50 - Digital Pulse Skipping Control and MATLAB Simulation Case Studies |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 51 - Selection of ADC and DAC in Digitally Controlled SMPCs |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 52 - High Frequency Current Sensing Techniques in Digitally Controlled SMPCs |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 53 - Current Sensing Techniques in Digitally Controlled High Power Converters |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 54 - Signal Conditioning Circuits and PCB Design for Mixed-Signal Implementation |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 55 - Reference Power Stage Design and Schematic for Buck and Boost Converters - I |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 56 - Reference Power Stage Design and Schematic for Buck and Boost Converters - II |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 57 - Step-by-Step Guidelines for Digital Control Implementation using FPGA |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 58 - Test and Measurement of a Buck Converter using Digital Storage Oscilloscope |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 59 - Functionalities in Mixed Signal Oscilloscope for Validating Digital Control |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 60 - Power Spectrum Analysis of SMPCs using Mixed-Signal Oscilloscope |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 61 - Introduction to Verilog Hardware Description Language (HDL) |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 62 - Guidelines for Verilog HDL Programming - Some Key Rules |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 63 - Structural and Dataflow Modeling in Verilog HDL for Combinational Logics |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 64 - Behavioral Modeling in Verilog HDL for Sequential Digital Circuits |
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NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 65 - Simulation of Verilog-HDL based Design using Xilinx Webpack - I |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 66 - Simulation of Verilog-HDL based Design using Xilinx Webpack - II |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 67 - Fixed Point Implementation in Embedded Control System |
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NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 68 - Fixed Point Arithmetic and Concept of Q Format |
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NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 69 - Counter-based DPWM with Deadtime and Verilog HDL Programming |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 70 - Simulating Counter-based DPWM with Deadtime using Xilinx ISE Simulator |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 71 - Top Down Design Methodology in Digital Voltage Mode Control - I |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 72 - Top Down Design Methodology in Digital Voltage Mode Control - II |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 73 - Digital PID Control Implementation using Verilog HDL Programming |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 74 - Digital PID Controller - Hardware Implementation and Experimental Results |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 75 - Top Down Design Methodology in Mixed-Signal Current Mode Control |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 76 - Top Down Design Method and Verilog HDL Programming of Mixed-Signal CMC |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 77 - Verilog HDL based Digital PI Control Implementation of Mixed-Signal CMC |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 78 - Hardware Implementation of Mixed-Signal CMC and Experimental Results |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 79 - Voltage based Digital Pulse Skip Modulation and Top Down Design Method |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 80 - Implementing Digital Pulse Skip Modulation and Experimental Results |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 81 - STM32 Overview and STM32G4x ecosystem |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 82 - Getting started with STM32CubeMX - Part I |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 83 - Getting started with STM32CubeMX - Part II |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 84 - Practical implementation of LLC converters - Part I |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 85 - Practical implementation of LLC converters - Part II |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 86 - Texas Instruments C2000 Real-time Microcontroller Devices |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 87 - Getting Started with C2000 - Software and Hardware Development |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 88 - Texas Instruments C2000 key peripheral differentiations |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 89 - Texas Instruments TIDM-02008 Reference Design Overview |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 90 - Texas Instruments TIDM-02008 Reference Design Software Overview |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 91 - Steps for FPGA Implementation of Digital Voltage Mode Control |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 92 - Steps for FPGA Implementation of Mixed-Signal Current Mode Control |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 93 - Instability in Digital CMC and Ramp Compensation with Experimental Results |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 94 - Benefits of Constant Off-Time and On-Time Digital CMC Techniques |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 95 - Top Down Design Methodology of Constant On/Off-Time Control |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 96 - Verilog HDL Implementation of Voltage based Constant On-Time Control |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 97 - FPGA Implementation of Constant On/Off-Time Mixed-Signal CMC |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 98 - Stability Comparison of Fixed and Variable Freq. Digital CMC with Experimental Results |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 99 - Assessment of Digital Control Techniques for Light Load DC-DC Converters |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 100 - Adaptive On-Time Digital Control in DCM with Verilog HDL Implementation |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 101 - MATLAB Simulation of a Practical Digital VMC Buck Converter in CCM |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 102 - Data Acquisition and Steps for Validating Simulation and Experimental Results |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 103 - Loop Shaping and Design of Digital Voltage Mode Control in a Buck Converter |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 104 - Digital VMC Design for Shaping Output Impedance in a Buck Converter |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 105 - Hardware Case Studies and Transient Performance in Digital VMC Buck Converter |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 106 - Design and Simulation Case Studies in a Mixed-Signal CMC Buck Converter |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 107 - Hardware Case Studies and Transient Performance in a Digital CMC Buck Converter |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 108 - Analysis of Output Impedance in Digital CMC with Load Current Feedforward |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 109 - Load Current Feedforward in Digital CMC Buck Converter: Experimental Results |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 110 - Need for Multi-Mode Digital Control and Design Requirements in SMPCs |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 111 - Implementing Bi-frequency Spread Spectrum in Digital VMC using Verilog HDL |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 112 - Performance of Bi-frequency Spread Spectrum DPWM and Experimental Results |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 113 - Top Down Design Methodology of PWM/PSM Multi-Mode Digital Control |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 114 - Verilog HDL based FPGA Prototyping of PWM/PSM Multi-Mode Digital Control |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 115 - FPGA Prototyping of Peak Current based PWM/PFM Multi-Mode Digital Control - I |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 116 - FPGA Prototyping of Peak Current based PWM/PFM Multi-Mode Digital Control - II |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 117 - Industry-Driven Architectures for Digital Control IC in High Frequency SMPC |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 118 - Industry-Driven Architectures for Digital Control System Solutions in SMPCs |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 119 - Exploration of Architectures, Modeling, Design, and Control - Course Summary |
| Link |
NOC:Digital Control in Switched Mode Power Converters and FPGA-based Prototyping |
Lecture 120 - Key Takeaways and Course Usefulness for Skilled Manpower Development |
| Link |
NOC:VLSI Interconnects |
Lecture 1 - Introduction to VLSI interconnects |
| Link |
NOC:VLSI Interconnects |
Lecture 2 - The distributed RC interconnect model |
| Link |
NOC:VLSI Interconnects |
Lecture 3 - The Elmore delay |
| Link |
NOC:VLSI Interconnects |
Lecture 4 - Elmore delay in interconnects |
| Link |
NOC:VLSI Interconnects |
Lecture 5 - Elmore delay in branched RC interconnects |
| Link |
NOC:VLSI Interconnects |
Lecture 6 - Equivalent circuit for RC interconnects |
| Link |
NOC:VLSI Interconnects |
Lecture 7 - Scaling effects in interconnects |
| Link |
NOC:VLSI Interconnects |
Lecture 8 - Delay mitigation in RC interconnects |
| Link |
NOC:VLSI Interconnects |
Lecture 9 - RC interconnect simulation |
| Link |
NOC:VLSI Interconnects |
Lecture 10 - Inductive effects in interconnects |
| Link |
NOC:VLSI Interconnects |
Lecture 11 - Distributed RLC interconnect model |
| Link |
NOC:VLSI Interconnects |
Lecture 12 - Transmission line equations |
| Link |
NOC:VLSI Interconnects |
Lecture 13 - When to consider the inductive effects? |
| Link |
NOC:VLSI Interconnects |
Lecture 14 - The transfer function of an RLC interconnect |
| Link |
NOC:VLSI Interconnects |
Lecture 15 - Time domain response of a lumped RLC circuit |
| Link |
NOC:VLSI Interconnects |
Lecture 16 - Equivalent Elmore model for RLC interconnects |
| Link |
NOC:VLSI Interconnects |
Lecture 17 - Two-pole model of RLC interconnects from ABCD parameters |
| Link |
NOC:VLSI Interconnects |
Lecture 18 - RLC interconnect simulation |
| Link |
NOC:VLSI Interconnects |
Lecture 19 - Origin of the skin effect |
| Link |
NOC:VLSI Interconnects |
Lecture 20 - Effective resistance at high frequencies |
| Link |
NOC:VLSI Interconnects |
Lecture 21 - Equivalent circuit to simulate skin effect |
| Link |
NOC:VLSI Interconnects |
Lecture 22 - Power dissipation due to interconnects |
| Link |
NOC:VLSI Interconnects |
Lecture 23 - Optimum interconnect width for minimizing total power dissipation |
| Link |
NOC:VLSI Interconnects |
Lecture 24 - Heating effects and thermal modeling |
| Link |
NOC:VLSI Interconnects |
Lecture 25 - Compact thermal modeling with equivalent electrical circuits |
| Link |
NOC:VLSI Interconnects |
Lecture 26 - Electromigration in interconnects |
| Link |
NOC:VLSI Interconnects |
Lecture 27 - Mitigation of electromigration |
| Link |
NOC:VLSI Interconnects |
Lecture 28 - Capacitive coupling in interconnects |
| Link |
NOC:VLSI Interconnects |
Lecture 29 - Cross-talk and timing jitters in two identical interconnects |
| Link |
NOC:VLSI Interconnects |
Lecture 30 - Coupling effects and mitigation techniques |
| Link |
NOC:VLSI Interconnects |
Lecture 31 - Matrix formulation of coupled interconnects |
| Link |
NOC:VLSI Interconnects |
Lecture 32 - Coupled RLC interconnects |
| Link |
NOC:VLSI Interconnects |
Lecture 33 - Decoupling of interconnects by diagonalization of matrix |
| Link |
NOC:VLSI Interconnects |
Lecture 34 - Analysis of coupled interconnects: Examples - 1 |
| Link |
NOC:VLSI Interconnects |
Lecture 35 - Analysis of coupled interconnects: Examples - 2 |
| Link |
NOC:VLSI Interconnects |
Lecture 36 - Simulation of RC coupled interconnects |
| Link |
NOC:VLSI Interconnects |
Lecture 37 - Extraction of capacitance - Part 1 |
| Link |
NOC:VLSI Interconnects |
Lecture 38 - Extraction of capacitance - Part 2 |
| Link |
NOC:VLSI Interconnects |
Lecture 39 - Extraction of inductance - Part 1 |
| Link |
NOC:VLSI Interconnects |
Lecture 40 - Extraction of inductance - Part 2 |
| Link |
NOC:VLSI Interconnects |
Lecture 41 - Estimation of interconnect parameters from S-parameters |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 1 - Introduction |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 2 - Introduction (Continued...) |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 3 - Crystal Concept |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 4 - Crystal Concept |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 5 - Crystal Concept |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 6 - Reciprocal Space |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 7 - Problem Session - 1 |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 8 - Doping In Semiconductors |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 9 - Bandstructure |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 10 - Effective Mass |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 11 - Density of States |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 12 - Mobility |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 13 - Problem Session - 2 |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 14 - Semiconductor statistics |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 15 - Semiconductor statistics (Continued...) |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 16 - P-N Junction |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 17 - P-N Junction (Continued...) |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 18 - P-N Junction (Continued...) |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 19 - Problem Session - 3 |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 20 - BJT |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 21 - Bipolar Junction Transistor |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 22 - Bipolar Junction Transistor (Continued...) |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 23 - Bipolar Junction Transistor (Continued...) |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 24 - Problem Session - 4 |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 25 - Metal- Semiconductor Interface |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 26 - Schottky junction |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 27 - Field Effect Transistor |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 28 - MOS Capacitor |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 29 - MOS-CV |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 30 - REAL MOS (Continued...) |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 31 - MOSFET |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 32 - MOSFET (Continued...) |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 33 - Problem Session - 5 |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 34 - Semiclassical Transport |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 35 - Semiclassical Transport (Continued...) |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 36 - Semiclassical Transport (Continued...) |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 37 - Semiclassical Transport (Continued...) |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 38 - Semiclassical Transport (Continued...) |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 39 - Problem Session - 6 |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 40 - Drift-diffusion model |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 41 - Drift-diffusion model (Continued...) |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 42 - Drift-diffusion model (Continued...) |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 43 - Drift-diffusion model (Continued...) |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 44 - Generation-Recombination |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 45 - Generation-Recombination (Continued...) |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 46 - Solving DD Equations (Continued...) |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 47 - Solving DD Equations (Continued...) |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 48 - Problem Session - 7 |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 49 - Hydrodynamic Model |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 50 - Hydrodynamic Model (Continued...) |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 51 - Hydrodynamic Model (Continued...) |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 52 - Monte Carlo simuations |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 53 - Problem Session - 8 |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 54 - Quantum Mechanics |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 55 - Solving Schrodinger Equation |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 56 - Quantum Correction Models |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 57 - Quantum Transport |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 58 - Transfer Matrix Approach |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 59 - TCAD Tools |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 60 - ATLAS SILVACO |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 61 - Simulating Junctions |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 62 - Models and Simulation Concepts |
| Link |
NOC:Semiconductor Device Modeling and Simulation |
Lecture 63 - Mixed-mode Simulation |
| Link |
NOC:RF and Microwave Networks |
Lecture 1 - The network concept |
| Link |
NOC:RF and Microwave Networks |
Lecture 2 - One-port network |
| Link |
NOC:RF and Microwave Networks |
Lecture 3 - One-port network, Two-port network |
| Link |
NOC:RF and Microwave Networks |
Lecture 4 - Two-port network, Signal flow graph |
| Link |
NOC:RF and Microwave Networks |
Lecture 5 - Tutorial - 1 |
| Link |
NOC:RF and Microwave Networks |
Lecture 6 - General analysis of cylindrical waveguides |
| Link |
NOC:RF and Microwave Networks |
Lecture 7 - TE to z mode analysis of cylindrical waveguides |
| Link |
NOC:RF and Microwave Networks |
Lecture 8 - TE to z mode analysis of cylindrical waveguides (Continued...), TM to z mode analysis |
| Link |
NOC:RF and Microwave Networks |
Lecture 9 - Normalization of mode vectors, Characteristics of eigen values and eigen functions |
| Link |
NOC:RF and Microwave Networks |
Lecture 10 - Wave impedance for TE and TM to z modes, Transmission line analogy for mode voltage |
| Link |
NOC:RF and Microwave Networks |
Lecture 11 - Transmission line equivalence for TE and TM modes, Power calculation using |
| Link |
NOC:RF and Microwave Networks |
Lecture 12 - Tutorial - 2 |
| Link |
NOC:RF and Microwave Networks |
Lecture 13 - Modal expansion in cylindrical waveguides, Concept of mode orthogonality |
| Link |
NOC:RF and Microwave Networks |
Lecture 14 - Concept of mode orthogonality (continued), Determination of arbitrary mode |
| Link |
NOC:RF and Microwave Networks |
Lecture 15 - Power orthogonality in cylindrical waveguides |
| Link |
NOC:RF and Microwave Networks |
Lecture 16 - Tutorial - 3 |
| Link |
NOC:RF and Microwave Networks |
Lecture 17 - Modal expansion of fields in rectangular waveguides |
| Link |
NOC:RF and Microwave Networks |
Lecture 18 - Modal expansion of fields in rectangular waveguides (Continued), Capacitive rectangular |
| Link |
NOC:RF and Microwave Networks |
Lecture 19 - Capacitive rectangular waveguide junction (Continued...) |
| Link |
NOC:RF and Microwave Networks |
Lecture 20 - Inductive rectangular waveguide junction (Continued...) |
| Link |
NOC:RF and Microwave Networks |
Lecture 21 - Inductive rectangular waveguide junction (Continued...), Construction of solutions |
| Link |
NOC:RF and Microwave Networks |
Lecture 22 - Cylindrical waveguide junctions (Continued...) |
| Link |
NOC:RF and Microwave Networks |
Lecture 23 - Cylindrical waveguide junctions (Continued...) |
| Link |
NOC:RF and Microwave Networks |
Lecture 24 - Cylindrical waveguide junctions (Continued...), Example of capacitive rectangular |
| Link |
NOC:RF and Microwave Networks |
Lecture 25 - Cylindrical waveguide junctions (Continued...), Example of capacitive rectangular |
| Link |
NOC:RF and Microwave Networks |
Lecture 26 - Example of inductive waveguide junction (Continued...), Alternative equivalent circuit |
| Link |
NOC:RF and Microwave Networks |
Lecture 27 - Tutorial - 4 |
| Link |
NOC:RF and Microwave Networks |
Lecture 28 - Obstacles in waveguides |
| Link |
NOC:RF and Microwave Networks |
Lecture 29 - Obstacles in waveguides (Continued...) |
| Link |
NOC:RF and Microwave Networks |
Lecture 30 - Obstacles in waveguides (Continued...) |
| Link |
NOC:RF and Microwave Networks |
Lecture 31 - Small obstacles in waveguides |
| Link |
NOC:RF and Microwave Networks |
Lecture 32 - Small obstacles in waveguides (Continued...) |
| Link |
NOC:RF and Microwave Networks |
Lecture 33 - Small obstacles in waveguides, Reciprocity |
| Link |
NOC:RF and Microwave Networks |
Lecture 34 - Reciprocity |
| Link |
NOC:RF and Microwave Networks |
Lecture 35 - Reciprocity (Continued...) |
| Link |
NOC:RF and Microwave Networks |
Lecture 36 - Tutorial - 5 |
| Link |
NOC:RF and Microwave Networks |
Lecture 37 - Posts in rectangular waveguide |
| Link |
NOC:RF and Microwave Networks |
Lecture 38 - Posts in rectangular waveguide (Continued...) |
| Link |
NOC:RF and Microwave Networks |
Lecture 39 - Posts in rectangular waveguide (Continued...) |
| Link |
NOC:RF and Microwave Networks |
Lecture 40 - Posts in rectangular waveguide (Continued...) |
| Link |
NOC:RF and Microwave Networks |
Lecture 41 - Diaphragms in waveguide |
| Link |
NOC:RF and Microwave Networks |
Lecture 42 - Diaphragms in waveguide (Continued...) |
| Link |
NOC:RF and Microwave Networks |
Lecture 43 - Diaphragms in waveguide (Continued...) |
| Link |
NOC:RF and Microwave Networks |
Lecture 44 - Diaphragms in waveguide (Continued...) |
| Link |
NOC:RF and Microwave Networks |
Lecture 45 - Tutorial - 6 |
| Link |
NOC:RF and Microwave Networks |
Lecture 46 - Currents in Waveguides |
| Link |
NOC:RF and Microwave Networks |
Lecture 47 - Currents in Waveguides (Continued...) |
| Link |
NOC:RF and Microwave Networks |
Lecture 48 - Coaxial to waveguide junction with matched termination |
| Link |
NOC:RF and Microwave Networks |
Lecture 49 - Coaxial to waveguide feeds with arbitrary termination |
| Link |
NOC:RF and Microwave Networks |
Lecture 50 - Coaxial to waveguide feeds with arbitrary termination (Continued...) |
| Link |
NOC:RF and Microwave Networks |
Lecture 51 - Coaxial to waveguide feeds with arbitrary termination (Continued...) |
| Link |
NOC:RF and Microwave Networks |
Lecture 52 - Coaxial to waveguide feeds with arbitrary termination (Continued...) |
| Link |
NOC:RF and Microwave Networks |
Lecture 53 - Tutorial - 7 |
| Link |
NOC:RF and Microwave Networks |
Lecture 54 - Apertures in the ground plane |
| Link |
NOC:RF and Microwave Networks |
Lecture 55 - Apertures in the ground plane (Continued...) |
| Link |
NOC:RF and Microwave Networks |
Lecture 56 - Apertures in the ground plane (Continued...) |
| Link |
NOC:RF and Microwave Networks |
Lecture 57 - Apertures in the ground plane (Continued...), Plane current sheets |
| Link |
NOC:RF and Microwave Networks |
Lecture 58 - Plane current sheets (Continued...) |
| Link |
NOC:RF and Microwave Networks |
Lecture 59 - Tutorial - 8 |
| Link |
NOC:RF and Microwave Networks |
Lecture 60 - Excitation of Apertures |
| Link |
NOC:RF and Microwave Networks |
Lecture 61 - Tutorial - 9 |
| Link |
NOC:RF and Microwave Networks |
Lecture 62 - Modal expansion in cavities |
| Link |
NOC:RF and Microwave Networks |
Lecture 63 - Probes in cavities |
| Link |
NOC:RF and Microwave Networks |
Lecture 64 - Tutorial - 10 |
| Link |
NOC:RF and Microwave Networks |
Lecture 65 - Aperture coupling to cavities |
| Link |
NOC:RF and Microwave Networks |
Lecture 66 - Aperture coupling to cavities (Continued...) |
| Link |
NOC:RF and Microwave Networks |
Lecture 67 - Wave interaction with cylindrical structures |
| Link |
NOC:RF and Microwave Networks |
Lecture 68 - Wave interaction with cylindrical structures (Continued...) |
| Link |
NOC:RF and Microwave Networks |
Lecture 69 - Wave interaction with cylindrical structures (Continued...) |
| Link |
NOC:RF and Microwave Networks |
Lecture 70 - Wave interaction with cylindrical structures (Continued...) |
| Link |
NOC:RF and Microwave Networks |
Lecture 71 - Wave interaction with cylindrical structures (Continued...) |
| Link |
NOC:RF and Microwave Networks |
Lecture 72 - Wave interaction with cylindrical structures (Continued...) |
| Link |
NOC:RF and Microwave Networks |
Lecture 73 - Wave interaction with cylindrical structures (Continued...) |
| Link |
NOC:RF and Microwave Networks |
Lecture 74 - Wave interaction with cylindrical structures (Continued...) |
| Link |
NOC:RF and Microwave Networks |
Lecture 75 - Tutorial - 12 |
| Link |
NOC:Introduction to Adaptive Signal Processing |
Lecture 1 - Introduction to Adaptive Filters |
| Link |
NOC:Introduction to Adaptive Signal Processing |
Lecture 2 - Probability and Random Variables |
| Link |
NOC:Introduction to Adaptive Signal Processing |
Lecture 3 - General Set of Random Variables |
| Link |
NOC:Introduction to Adaptive Signal Processing |
Lecture 4 - Statistical Impedance, Covariance Matrices |
| Link |
NOC:Introduction to Adaptive Signal Processing |
Lecture 5 - Multivariate Gaussian Density |
| Link |
NOC:Introduction to Adaptive Signal Processing |
Lecture 6 - Complex Random Variables |
| Link |
NOC:Introduction to Adaptive Signal Processing |
Lecture 7 - Introduction to Hermitian Matrices |
| Link |
NOC:Introduction to Adaptive Signal Processing |
Lecture 8 - Eigenvalues and eigenvectors of Hermitian Matrices |
| Link |
NOC:Introduction to Adaptive Signal Processing |
Lecture 9 - Spectral Decomposition of Hermitian Matrices |
| Link |
NOC:Introduction to Adaptive Signal Processing |
Lecture 10 - Positive Definite and Semidefinite Matrices |
| Link |
NOC:Introduction to Adaptive Signal Processing |
Lecture 11 - Introduction to Discrete Time Random Processes |
| Link |
NOC:Introduction to Adaptive Signal Processing |
Lecture 12 - Power Spectral Density (PSD) |
| Link |
NOC:Introduction to Adaptive Signal Processing |
Lecture 13 - PSD and Linear Time Invariant Systems |
| Link |
NOC:Introduction to Adaptive Signal Processing |
Lecture 14 - Optimal FIR Filter |
| Link |
NOC:Introduction to Adaptive Signal Processing |
Lecture 15 - Optimal FIR Filter (Continued...) |
| Link |
NOC:Introduction to Adaptive Signal Processing |
Lecture 16 - LMS Algorithm |
| Link |
NOC:Introduction to Adaptive Signal Processing |
Lecture 17 - Convergence Proof of LMS Algorithm |
| Link |
NOC:Introduction to Adaptive Signal Processing |
Lecture 18 - Convergence Proof of LMS Algorithm (Continued...) |
| Link |
NOC:Introduction to Adaptive Signal Processing |
Lecture 19 - Application of Adaptive Filter |
| Link |
NOC:Introduction to Adaptive Signal Processing |
Lecture 20 - Application of Adaptive Filter (Continued...) |
| Link |
NOC:Introduction to Adaptive Signal Processing |
Lecture 21 - Application of Adaptive Filter (Continued...) |
| Link |
NOC:Introduction to Adaptive Signal Processing |
Lecture 22 - Applications of Adaptive Filter |
| Link |
NOC:Introduction to Adaptive Signal Processing |
Lecture 23 - Applications of Adaptive Filter |
| Link |
NOC:Introduction to Adaptive Signal Processing |
Lecture 24 - Second Order Analysis of LMS Algorithm |
| Link |
NOC:Introduction to Adaptive Signal Processing |
Lecture 25 - Second Order Analysis of LMS Algorithm (Continued...) |
| Link |
NOC:Introduction to Adaptive Signal Processing |
Lecture 26 - Second Order Analysis of LMS Algorithm (Continued...) |
| Link |
NOC:Introduction to Adaptive Signal Processing |
Lecture 27 - Second Order Analysis of LMS Algorithm (Continued...) |
| Link |
NOC:Introduction to Adaptive Signal Processing |
Lecture 28 - NLMS Algorithm |
| Link |
NOC:Introduction to Adaptive Signal Processing |
Lecture 29 - NLMS Algorithm |
| Link |
NOC:Introduction to Adaptive Signal Processing |
Lecture 30 - Affine Projection Algorithm (APA) |
| Link |
NOC:Introduction to Adaptive Signal Processing |
Lecture 31 - Affine Projection Algorithm (APA) |
| Link |
NOC:Introduction to Adaptive Signal Processing |
Lecture 32 - Introduction to RLS Algorithm |
| Link |
NOC:Introduction to Adaptive Signal Processing |
Lecture 33 - Introduction to RLS Algorithm (Continued...) |
| Link |
NOC:Introduction to Adaptive Signal Processing |
Lecture 34 - Introduction to RLS Algorithm (Continued...) |
| Link |
NOC:Introduction to Adaptive Signal Processing |
Lecture 35 - Formulation of the RLS Algorithm |
| Link |
NOC:Introduction to Adaptive Signal Processing |
Lecture 36 - Introduction to RLS Algorithm |
| Link |
NOC:Introduction to Adaptive Signal Processing |
Lecture 37 - Introduction to RLS Algorithm |
| Link |
NOC:Introduction to Adaptive Signal Processing |
Lecture 38 - Formulation of the RLS Algorithm |
| Link |
NOC:Introduction to Adaptive Signal Processing |
Lecture 39 - Derivation of the RLS transversal adaptive filter |
| Link |
NOC:Introduction to Adaptive Signal Processing |
Lecture 40 - Derivation of the RLS transversal adaptive filter |
| Link |
NOC:Introduction to Adaptive Signal Processing |
Lecture 41 - Derivation of the RLS transversal adaptive filter |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 1 - What is Nano Bio Photonics? |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 2 - Why is Nano Bio Photonics? |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 3 - Why do this? |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 4 - Why Photonics? |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 5 - Why Biology? |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 6 - Nature of Light |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 7 - Light-Matter Interactions |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 8 - Introduction to Fluorescence |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 9 - The Cell |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 10 - The Central Dogma |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 11 - Facts of Matter |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 12 - Introduction to Nanotechnology |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 13 - Nanotechnology: The art of small |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 14 - Synthesis of Nanomaterials : Top-Down Approach |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 15 - Applications of Nanomaterials in Photonics |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 16 - Interaction of Light with Cells |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 17 - Light-matter interactions in molecules (Basic of Spectroscopy) |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 18 - Imaging for Biological Matters |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 19 - Fluorophores and Fluorescence Microscopy Techniques |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 20 - Primary Examples |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 21 - Basics of Flow Cytometry - Part 1 |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 22 - Basics of Flow Cytometry - Part 2 |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 23 - Data manipulation and presentation |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 24 - Application of Flow cytometry in Biology |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 25 - Raman Assisted Flow cytometry |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 26 - Genetic Code |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 27 - Biosensing Background |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 28 - Basics of Microarray Technology |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 29 - DNA Microarray Technology |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 30 - Protein Microarray Technology |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 31 - Laser Principles and Operation |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 32 - Nonlinear Optical Processes |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 33 - In Vivo Photoexcitation |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 34 - Light/Laser Activated Therapy |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 35 - Laser Tissue Contouring |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 36 - Metamaterials |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 37 - Metamaterials as Biosensors |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 38 - Biosensing with Optical Nano-Antennas |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 39 - Nanoscale Chemical Imaging |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 40 - Optical Tweezers |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 41 - Introduction to Optogenetics |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 42 - Controlling the Brain with Light |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 43 - The Nervous System |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 44 - The Neural Circuits |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 45 - Optical Neuroimaging and Tomography |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 46 - Functional Near-Infrared Spectroscopy (fNIRS) of the Brain |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 47 - Neuro imaging with Light-Sheet Microscopy |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 48 - Brain imaging with Two Photon Microscopy |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 49 - Brain imaging with functional optoacoustic Imaging |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 50 - Tomographic technique for Brain imaging |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 51 - Optogenetic Modulation of Neural Circuits |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 52 - Nanoparticles for Optical Modulation of Neuronal Behavior |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 53 - Optical Stimulation of Neural Circuits in Freely Moving Animals |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 54 - Higher Harmonic Generation Imaging for Neuropathology |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 55 - Multi-Photon Nanosurgery |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 56 - Bioinspired materials for photonics |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 57 - Bioderived Materials |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 58 - Bioinspired Materials |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 59 - Biotemplates |
| Link |
NOC:Nanobiophotonics: Touching Our Daily Life |
Lecture 60 - Summary and Revisiting Few Topics |
| Link |
Modelling and Analysis of Electric Machines |
Lecture 1 - Introduction |
| Link |
Modelling and Analysis of Electric Machines |
Lecture 2 - Magnetic Fields |
| Link |
Modelling and Analysis of Electric Machines |
Lecture 3 - Magnetic Circuit |
| Link |
Modelling and Analysis of Electric Machines |
Lecture 4 - Singly Excited Linear Motion System |
| Link |
Modelling and Analysis of Electric Machines |
Lecture 5 - Linear and Cylindrical Motion Systems |
| Link |
Modelling and Analysis of Electric Machines |
Lecture 6 - Systems with Multiple Excitations |
| Link |
Modelling and Analysis of Electric Machines |
Lecture 7 - Non-linear Magnetic Systems |
| Link |
Modelling and Analysis of Electric Machines |
Lecture 8 - Inductances in Constant Air gap Machines |
| Link |
Modelling and Analysis of Electric Machines |
Lecture 9 - Inductance in Salient Pole Machine - I |
| Link |
Modelling and Analysis of Electric Machines |
Lecture 10 - Inductance in Salient Pole Machine - II |
| Link |
Modelling and Analysis of Electric Machines |
Lecture 11 - Inductance in Salient Pole Machine - III |
| Link |
Modelling and Analysis of Electric Machines |
Lecture 12 - Inductance in Salient Pole Machine - IV |
| Link |
Modelling and Analysis of Electric Machines |
Lecture 13 - Inductance in Salient Pole Machine - V |
| Link |
Modelling and Analysis of Electric Machines |
Lecture 14 - Inductances of Distributed Winding - I |
| Link |
Modelling and Analysis of Electric Machines |
Lecture 15 - Inductances of Distributed Winding - II |
| Link |
Modelling and Analysis of Electric Machines |
Lecture 16 - Inductances of Distributed Winding - III |
| Link |
Modelling and Analysis of Electric Machines |
Lecture 17 - Dynamic Equations of Induction Machines |
| Link |
Modelling and Analysis of Electric Machines |
Lecture 18 - Dynamic Equations of Salient Pole Synchronous Machine |
| Link |
Modelling and Analysis of Electric Machines |
Lecture 19 - Three-to-Two Phase Transformation |
| Link |
Modelling and Analysis of Electric Machines |
Lecture 20 - Induction Machine in Two-Phase Reference Frame |
| Link |
Modelling and Analysis of Electric Machines |
Lecture 21 - The Pseudo-Stationary Reference Frame |
| Link |
Modelling and Analysis of Electric Machines |
Lecture 22 - Induction Machine in Pseudo-Stationary Reference Frame |
| Link |
Modelling and Analysis of Electric Machines |
Lecture 23 - The Primitive Machine Equations |
| Link |
Modelling and Analysis of Electric Machines |
Lecture 24 - Dynamic Equations of DC Machines |
| Link |
Modelling and Analysis of Electric Machines |
Lecture 25 - Small Signal Model of DC Machine |
| Link |
Modelling and Analysis of Electric Machines |
Lecture 26 - Small Signal Behaviour of DC Machine |
| Link |
Modelling and Analysis of Electric Machines |
Lecture 27 - The Arbitrary Reference Frame |
| Link |
Modelling and Analysis of Electric Machines |
Lecture 28 - Induction Machine Equations in Arbitrary, Synchronous Reference Frames and Small Signal Modelling |
| Link |
Modelling and Analysis of Electric Machines |
Lecture 29 - Introduction to Field Oriented Control of Induction Machines |
| Link |
Modelling and Analysis of Electric Machines |
Lecture 30 - Space Vector Formulation of Induction Machine Equations |
| Link |
Modelling and Analysis of Electric Machines |
Lecture 31 - Modelling of Salient Pole Synchronous Machines - I |
| Link |
Modelling and Analysis of Electric Machines |
Lecture 32 - Modelling of Salient Pole Synchronous Machines - II |
| Link |
Modelling and Analysis of Electric Machines |
Lecture 33 - Modelling of Salient Pole Synchronous Machines - III |
| Link |
Modelling and Analysis of Electric Machines |
Lecture 34 - Steady State Models - Induction Machine |
| Link |
Modelling and Analysis of Electric Machines |
Lecture 35 - Steady State Models - Salient Pole Synchronous Machine |
| Link |
Modelling and Analysis of Electric Machines |
Lecture 36 - Solution of Dynamic Equations of Induction Machine - I |
| Link |
Modelling and Analysis of Electric Machines |
Lecture 37 - Solution of Dynamic Equations of Induction Machine - II |
| Link |
Modelling and Analysis of Electric Machines |
Lecture 38 - Reactances of Salient Pole Synchronous Machines - I |
| Link |
Modelling and Analysis of Electric Machines |
Lecture 39 - Reactances of Salient Pole Synchronous Machines - II |
| Link |
Modelling and Analysis of Electric Machines |
Lecture 40 - Reactances of Salient Pole Synchronous Machines - III |
| Link |
Modelling and Analysis of Electric Machines |
Lecture 41 - Suddent Short Circuit of Three Phase Alternator - Analytical Solution |
| Link |
Modelling and Analysis of Electric Machines |
Lecture 42 - Suddent Short Circuit of Three Phase Alternator - Numerical Simulation |
| Link |
Modelling and Analysis of Electric Machines |
Lecture 43 - Course Recapitulation and Assignments |
| Link |
Analog ICs |
Lecture 1 - Basic Building Blocks In Analog ICs |
| Link |
Analog ICs |
Lecture 2 - Current Mirrors |
| Link |
Analog ICs |
Lecture 3 - Translinear Networks |
| Link |
Analog ICs |
Lecture 4 - Differential Amplifier |
| Link |
Analog ICs |
Lecture 5 - Differential Amplifier Characteristics |
| Link |
Analog ICs |
Lecture 6 - Video Amplifier and RF/IF Amplifiers |
| Link |
Analog ICs |
Lecture 7 - Cascade Amplifier |
| Link |
Analog ICs |
Lecture 8 - IC Negative Feedback Wide Band Amplifiers |
| Link |
Analog ICs |
Lecture 9 - IC Negative Feedback Amplifiers |
| Link |
Analog ICs |
Lecture 10 - Voltage Sources And References |
| Link |
Analog ICs |
Lecture 11 - IC Voltage Regulator |
| Link |
Analog ICs |
Lecture 12 - Characteristics and Parameters Of Voltage |
| Link |
Analog ICs |
Lecture 13 - Protection Circuitry For Voltage Regulator |
| Link |
Analog ICs |
Lecture 14 - Switched Mode Regulator And Operational |
| Link |
Analog ICs |
Lecture 15 - IC Operational Voltage Amplifier |
| Link |
Analog ICs |
Lecture 16 - General Purpose Operational Amplifier-747 |
| Link |
Analog ICs |
Lecture 17 - Transconductance Operational Amplifier |
| Link |
Analog ICs |
Lecture 18 - Audio Power Amplifier and Norton's Amplifier |
| Link |
Analog ICs |
Lecture 19 - Analog Multipliers |
| Link |
Analog ICs |
Lecture 20 - Analog Multipliers |
| Link |
Analog ICs |
Lecture 21 - Voltage Controlled Oscillator |
| Link |
Analog ICs |
Lecture 22 - Voltage Controlled Oscillator |
| Link |
Analog ICs |
Lecture 23 - Self Tuned Filter |
| Link |
Analog ICs |
Lecture 24 - Phase Locked Loop24 Phase Locked Loop |
| Link |
Analog ICs |
Lecture 25 - Phase Locked Loop |
| Link |
Analog ICs |
Lecture 26 - Phase Locked Loop |
| Link |
Analog ICs |
Lecture 27 - Phase Locked Loop |
| Link |
Analog ICs |
Lecture 28 - Current Mode ICs |
| Link |
Digital Integrated Circuits |
Lecture 1 - Semiconductors |
| Link |
Digital Integrated Circuits |
Lecture 2 - Modelling of PN Junction Diodes |
| Link |
Digital Integrated Circuits |
Lecture 3 - Modelling of BJTs |
| Link |
Digital Integrated Circuits |
Lecture 4 - Diode and BJT Model Parameter Extraction |
| Link |
Digital Integrated Circuits |
Lecture 5 - BJT Inverters DC and Switching Characteristics |
| Link |
Digital Integrated Circuits |
Lecture 6 - Schottky Transistor |
| Link |
Digital Integrated Circuits |
Lecture 7 - Specifications of Logic Circuits |
| Link |
Digital Integrated Circuits |
Lecture 8 - Qualitative discussion on TTL Circuits |
| Link |
Digital Integrated Circuits |
Lecture 9 - Standard TTL Circuits |
| Link |
Digital Integrated Circuits |
Lecture 10 - Schottky (74s..) and Low power Schottky (74ls) |
| Link |
Digital Integrated Circuits |
Lecture 11 - Advanced TTL Circuits |
| Link |
Digital Integrated Circuits |
Lecture 12 - I2 L Technology |
| Link |
Digital Integrated Circuits |
Lecture 13 - Edge triggered D-F/F |
| Link |
Digital Integrated Circuits |
Lecture 14 - I2 L - Condition for Proper Operation |
| Link |
Digital Integrated Circuits |
Lecture 15 - I2 L - Propagation delay Self aligned |
| Link |
Digital Integrated Circuits |
Lecture 16 - Schottky Transistor Logic |
| Link |
Digital Integrated Circuits |
Lecture 17 - Stacked I2 L |
| Link |
Digital Integrated Circuits |
Lecture 18 - ECL Basic Operation |
| Link |
Digital Integrated Circuits |
Lecture 19 - Quantitative analysis of ECL 10k Series gates |
| Link |
Digital Integrated Circuits |
Lecture 20 - ECL 100k series; Stacked ECL gates; D-F/F |
| Link |
Digital Integrated Circuits |
Lecture 21 - Emitter Function Logic;Low Power ECL |
| Link |
Digital Integrated Circuits |
Lecture 22 - Polyemitter Bipolar Transistor In ECL;Propagation |
| Link |
Digital Integrated Circuits |
Lecture 23 - Heterojunction Bipolar Transistor Based ECL;ECL |
| Link |
Digital Integrated Circuits |
Lecture 24 - nMOS Logic Circuits |
| Link |
Digital Integrated Circuits |
Lecture 25 - nMOS Logic Circuits(contd); CMOS :Introduction |
| Link |
Digital Integrated Circuits |
Lecture 26 - CMOS Inverter |
| Link |
Digital Integrated Circuits |
Lecture 27 - CMOS NAND,NOR and Other Gates: Clocked CMOS |
| Link |
Digital Integrated Circuits |
Lecture 28 - Dynamic CMOS ;Transmission Gates;Realization Of MUX,decoder, D-F/F |
| Link |
Digital Integrated Circuits |
Lecture 29 - BiCMOS Gates |
| Link |
Digital Integrated Circuits |
Lecture 30 - BiCMOS Driver;BiCMOS 32-bit Adder |
| Link |
Digital Integrated Circuits |
Lecture 31 - Digital Integrated Circuits |
| Link |
Digital Integrated Circuits |
Lecture 32 - Digital Integrated Circuits |
| Link |
Digital Integrated Circuits |
Lecture 33 - CMOS SRAM |
| Link |
Digital Integrated Circuits |
Lecture 34 - BiCMOS SRAM |
| Link |
Digital Integrated Circuits |
Lecture 35 - DRAM-CMOS and BiCMOS |
| Link |
Digital Integrated Circuits |
Lecture 36 - ROM-EPROM,EEPROM and Flash EPROM |
| Link |
Digital Integrated Circuits |
Lecture 37 - GaAs MESFET Characteristics and Equivalent Circuits |
| Link |
Digital Integrated Circuits |
Lecture 38 - Direct Coupled FET Logic; Superbuffer FET Logic |
| Link |
Digital Integrated Circuits |
Lecture 39 - Buffered FET Logic; Schottky Diode FET Logic |
| Link |
Digital Integrated Circuits |
Lecture 40 - Transmission Line Effects |
| Link |
Electromagnetic Fields |
Lecture 1 - Introduction To Vector |
| Link |
Electromagnetic Fields |
Lecture 2 - Introduction To Vector (Continued...) |
| Link |
Electromagnetic Fields |
Lecture 3 - Coulomb's Law |
| Link |
Electromagnetic Fields |
Lecture 4 - Electric Field |
| Link |
Electromagnetic Fields |
Lecture 5 - Electro Static Potential |
| Link |
Electromagnetic Fields |
Lecture 6 - The Gradient |
| Link |
Electromagnetic Fields |
Lecture 7 - Gauss's Law |
| Link |
Electromagnetic Fields |
Lecture 8 - Poisson's Equation |
| Link |
Electromagnetic Fields |
Lecture 9 - Energy In The Field |
| Link |
Electromagnetic Fields |
Lecture 10 - Sample Problems In Electrostatics |
| Link |
Electromagnetic Fields |
Lecture 11 - Fields In Materials |
| Link |
Electromagnetic Fields |
Lecture 12 - Fields In Material Bodies |
| Link |
Electromagnetic Fields |
Lecture 13 - Displacement Vectors |
| Link |
Electromagnetic Fields |
Lecture 14 - Capacitors |
| Link |
Electromagnetic Fields |
Lecture 15 - Method Of Images |
| Link |
Electromagnetic Fields |
Lecture 16 - Poisson's Equation 2 Dimensions |
| Link |
Electromagnetic Fields |
Lecture 17 - Field Near Sharp Edges And Points |
| Link |
Electromagnetic Fields |
Lecture 18 - Magnetic Field 1 |
| Link |
Electromagnetic Fields |
Lecture 19 - Magnetic Field 2 |
| Link |
Electromagnetic Fields |
Lecture 20 - Stokes Theorems |
| Link |
Electromagnetic Fields |
Lecture 21 - The curl |
| Link |
Electromagnetic Fields |
Lecture 22 - Field due to current loop |
| Link |
Electromagnetic Fields |
Lecture 23 - Ampere's law |
| Link |
Electromagnetic Fields |
Lecture 24 - Examples of Ampere's law |
| Link |
Electromagnetic Fields |
Lecture 25 - Inductance |
| Link |
Electromagnetic Fields |
Lecture 26 - Mutual Inductance |
| Link |
Electromagnetic Fields |
Lecture 27 - Faraday's law |
| Link |
Electromagnetic Fields |
Lecture 28 - Magnetic Energy |
| Link |
Electromagnetic Fields |
Lecture 29 - Magnetic Energy (Continued...) |
| Link |
Electromagnetic Fields |
Lecture 30 - Magnetic Energy (Continued...) |
| Link |
Electromagnetic Fields |
Lecture 31 - Generalised Ampere's Law |
| Link |
Electromagnetic Fields |
Lecture 32 - The Wave Equation |
| Link |
Electromagnetic Fields |
Lecture 33 - The Wave Equation |
| Link |
Electromagnetic Fields |
Lecture 34 - Poynting Theorem |
| Link |
Electromagnetic Fields |
Lecture 35 - Skin Effect |
| Link |
Electromagnetic Fields |
Lecture 36 - Skin Effect (Continued...) |
| Link |
Electromagnetic Fields |
Lecture 37 - Radiation And Circuits |
| Link |
Electromagnetic Fields |
Lecture 38 - Phasor Form Of Poynting Theorem |
| Link |
Electromagnetic Fields |
Lecture 39 - Reflection At Dielectric Boundaries |
| Link |
Electromagnetic Fields |
Lecture 40 - Reflection At Dielectric Boundaries (Continued...) |
| Link |
Electromagnetic Fields |
Lecture 41 - Transmission Lines |
| Link |
Electromagnetic Fields |
Lecture 42 - Transmission Lines (Continued...) and Conclusion |
| Link |
Networks and Systems |
Lecture 1 - Introductory Concepts - 1 |
| Link |
Networks and Systems |
Lecture 2 - Introductory Concepts - 2 |
| Link |
Networks and Systems |
Lecture 3 - Introductory Concepts - 3 |
| Link |
Networks and Systems |
Lecture 4 - Introductory Concepts - 4 |
| Link |
Networks and Systems |
Lecture 5 - Introductory Concepts - 5 |
| Link |
Networks and Systems |
Lecture 6 - Introductory Concepts - 6 |
| Link |
Networks and Systems |
Lecture 7 - Fourier Series - 1 |
| Link |
Networks and Systems |
Lecture 8 - Fourier Series - 2 |
| Link |
Networks and Systems |
Lecture 9 - Fourier Series - 3 |
| Link |
Networks and Systems |
Lecture 10 - Fourier Series - 4 |
| Link |
Networks and Systems |
Lecture 11 - Fourier Series - 5 |
| Link |
Networks and Systems |
Lecture 12 - Fourier Series - 6 |
| Link |
Networks and Systems |
Lecture 13 - Fourier Transforms - 1 |
| Link |
Networks and Systems |
Lecture 14 - Fourier Transforms - 2 |
| Link |
Networks and Systems |
Lecture 15 - Fourier Transforms - 3 |
| Link |
Networks and Systems |
Lecture 16 - Fourier Transforms - 4 |
| Link |
Networks and Systems |
Lecture 17 - Fourier Transforms - 5 |
| Link |
Networks and Systems |
Lecture 18 - Fourier Transforms - 6 |
| Link |
Networks and Systems |
Lecture 19 - Fourier Transforms - 7 |
| Link |
Networks and Systems |
Lecture 20 - Laplace Transforms - 1 |
| Link |
Networks and Systems |
Lecture 21 - Laplace Transforms - 2 |
| Link |
Networks and Systems |
Lecture 22 - Laplace Transforms - 3 |
| Link |
Networks and Systems |
Lecture 23 - Laplace Transforms - 4 |
| Link |
Networks and Systems |
Lecture 24 - Laplace Transforms - 5 |
| Link |
Networks and Systems |
Lecture 25 - Laplace Transforms - 6 |
| Link |
Networks and Systems |
Lecture 26 - Application of Laplace Transforms - 1 |
| Link |
Networks and Systems |
Lecture 27 - Application of Laplace Transforms - 2 |
| Link |
Networks and Systems |
Lecture 28 - Application of Laplace Transforms - 3 |
| Link |
Networks and Systems |
Lecture 29 - Application of Laplace Transforms - 4 |
| Link |
Networks and Systems |
Lecture 30 - Network Functions - 1 |
| Link |
Networks and Systems |
Lecture 31 - Network Functions - 2 |
| Link |
Networks and Systems |
Lecture 32 - Network Functions - 3 |
| Link |
Networks and Systems |
Lecture 33 - Network Functions - 4 |
| Link |
Networks and Systems |
Lecture 34 - Network Theorems - 1 |
| Link |
Networks and Systems |
Lecture 35 - Network Theorems - 2 |
| Link |
Networks and Systems |
Lecture 36 - Network Theorems - 3 |
| Link |
Networks and Systems |
Lecture 37 - Network Theorems - 4 |
| Link |
Networks and Systems |
Lecture 38 - Discrete - Time Systems - 1 |
| Link |
Networks and Systems |
Lecture 39 - Discrete - Time Systems - 2 |
| Link |
Networks and Systems |
Lecture 40 - Discrete - Time Systems - 3 |
| Link |
Networks and Systems |
Lecture 41 - Discrete - Time Systems - 4 |
| Link |
Networks and Systems |
Lecture 42 - Discrete - Time Systems - 5 |
| Link |
Networks and Systems |
Lecture 43 - Discrete - Time Systems - 6 |
| Link |
Networks and Systems |
Lecture 44 - Discrete - Time Systems - 7 |
| Link |
Networks and Systems |
Lecture 45 - State-Variable Methods - 1 |
| Link |
Networks and Systems |
Lecture 46 - State-Variable Methods - 2 |
| Link |
Networks and Systems |
Lecture 47 - State Variable Methods - 3 |
| Link |
Networks and Systems |
Lecture 48 - State Variable Methods - 4 |
| Link |
Networks and Systems |
Lecture 49 - State Variable Methods - 5 |
| Link |
Networks and Systems |
Lecture 50 - State Variable Methods - 6 |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 1 - Introduction |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 2 - Cardinality |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 3 - Countability |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 4 - Uncountable sets - 1 |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 5 - Uncountable sets - 2 |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 6 - Probability spaces - Introduction |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 7 - Probability spaces - Algebra |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 8 - Probability spaces - σ-algebra |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 9 - Probability spaces - Measurable space |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 10 - Properties of probability measures |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 11 - Continuity of probability measure |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 12 - Discrete probability space - finite and countably infinite sample space |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 13 - Discrete probability space - Uncountable sample space |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 14 - Generated σ-algebra, Borel Sets |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 15 - Borel sets |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 16 - Uniform probability measure on Borel sets-Lebesgue measure |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 17 - Carathéodory’s extension theorem |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 18 - Lebesgue measure (Continued...) |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 19 - Infinite coin toss model |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 20 - Infinite coin toss model (Continued...) |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 21 - Conditional probability |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 22 - Properties of conditional probability |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 23 - Independence of events |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 24 - Independence of σ-algebras |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 25 - Borel-Cantelli Lemma - 1 |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 26 - Borel-Cantelli Lemma - 2 |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 27 - Random Variables |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 28 - Random Variables (Continued...) |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 29 - Cumulative Distribution Function |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 30 - Properties of CDF |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 31 - Types of Random Variables |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 32 - Examples of Random Variables |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 33 - Continuous Random Variables - 1 |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 34 - Examples of Continuous Random Variables - 1 |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 35 - Continuous Random Variables - 2, Examples of Continuous RandomVariables - 2 |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 36 - Singular Random Variables |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 37 - Several Random Variables - 1 |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 38 - Several Random Variables - 2 |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 39 - Independent Random Variables - 1 |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 40 - Independent Random Variables - 2 |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 41 - Conditional PMF, Jointly Continuous Random Variables - 1 |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 42 - Jointly Continuous Random Variables - 2 |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 43 - Jointly Continuous Random Variables - 3 |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 44 - Conditional CDF |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 45 - Transformation of Random Variables - 1 |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 46 - Transformation of Random Variables - 2; Independent Random Variables |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 47 - Sums of Discrete Random Variables |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 48 - Sums of Jointly Continuous Random Variables |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 49 - Sums of Random Number of Random Variables |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 50 - General Transformations of Random Variables |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 51 - Jacobian Formula |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 52 - Examples Illustrating the use of Jacobian Formula |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 53 - Introduction Integral and Expectation |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 54 - Definition of the Abstract Integral |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 55 - Simple Functions |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 56 - Computing Expectation using Simple Functions, Properties of Integrals |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 57 - Properties of Integrals (Continued....) |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 58 - Inclusion Exclusion Formula using Indicator RVs and Expectation |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 59 - Monotone Convergence Theorem - 1 |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 60 - Monotone Convergence Theorem - 2 |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 61 - Expectation of a Discrete Random Variable |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 62 - Examples of Expectation of Discrete Random Variables |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 63 - Expectation of Function of Random Variable |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 64 - Some Examples of Computing Expectation |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 65 - Fatou’s Lemma |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 66 - Dominated Convergence Theorem |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 67 - Variance |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 68 - Covariance |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 69 - Covariance Correlation Coefficient - 1 |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 70 - Covariance Correlation Coefficient - 2 |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 71 - Conditional Expectation |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 72 - Properties of Conditional Expectation |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 73 - MMSE Estimator |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 74 - Transforms |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 75 - Moment Generating Function - 1 |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 76 - Moment Generating Function - 2 |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 77 - Characteristic Function - 1 |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 78 - Characteristic Function - 2 |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 79 - Characteristic Function - 3 |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 80 - Characteristic Function - 4 |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 81 - Concentration Inequalities - 1 |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 82 - Concentration Inequalities - 2 |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 83 - Convergence of Random Variables - 1 |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 84 - Convergence of Random Variables - 2 |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 85 - Convergence of Random Variables - 3 |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 86 - Convergence of Random Variables - 4 |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 87 - Convergence of Random Variables - 5 |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 88 - Convergence of Random Variables - 6 |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 89 - Convergence Of Characteristic Functions |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 90 - Limit Theorems |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 91 - The Law of Large Numbers - 1 |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 92 - The Law of Large Numbers - 2 |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 93 - The Central Limit Theorem - 1 |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 94 - The Central Limit Theorem - 2 |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 95 - A Brief Overview of Multivariate Gaussians - 1 |
| Link |
Probability Foundation for Electrical Engineers |
Lecture 96 - A Brief Overview of Multivariate Gaussians - 2 |
| Link |
NOC:Analog Circuits |
Lecture 1 - Introduction to the course |
| Link |
NOC:Analog Circuits |
Lecture 2 - Obtaining power gain |
| Link |
NOC:Analog Circuits |
Lecture 3 - Obtaining power gain using a linear two port? |
| Link |
NOC:Analog Circuits |
Lecture 4 - One port (two terminal) nonlinear element |
| Link |
NOC:Analog Circuits |
Lecture 5 - Nonlinear circuit analysis |
| Link |
NOC:Analog Circuits |
Lecture 6 - Small signal incremental analysis - graphical view |
| Link |
NOC:Analog Circuits |
Lecture 7 - Small signal incremental analysis |
| Link |
NOC:Analog Circuits |
Lecture 8 - Incremental equivalent circuit |
| Link |
NOC:Analog Circuits |
Lecture 9 - Large signal characteristics of a diode |
| Link |
NOC:Analog Circuits |
Lecture 10 - Analysis of diode circuits |
| Link |
NOC:Analog Circuits |
Lecture 11 - Small signal model of a diode |
| Link |
NOC:Analog Circuits |
Lecture 12 - Two port nonlinearity |
| Link |
NOC:Analog Circuits |
Lecture 13 - Small signal equivalent of a two port network |
| Link |
NOC:Analog Circuits |
Lecture 14 - Small signal equivalent circuit of a two port network |
| Link |
NOC:Analog Circuits |
Lecture 15 - Gain of a two port network |
| Link |
NOC:Analog Circuits |
Lecture 16 - Constraints on small signal parameters to maximize the gain |
| Link |
NOC:Analog Circuits |
Lecture 17 - Constraints on large signal characteristics to maximize the gain |
| Link |
NOC:Analog Circuits |
Lecture 18 - Implications of constraints in terms of the circuit equivalent |
| Link |
NOC:Analog Circuits |
Lecture 19 - MOS transistor-description |
| Link |
NOC:Analog Circuits |
Lecture 20 - MOS transistor large signal characteristics |
| Link |
NOC:Analog Circuits |
Lecture 21 - MOS transistor large signal characteristics - graphical view |
| Link |
NOC:Analog Circuits |
Lecture 22 - MOS transistor small signal characteristics |
| Link |
NOC:Analog Circuits |
Lecture 23 - Linear (Triode) region of the MOS transistor |
| Link |
NOC:Analog Circuits |
Lecture 24 - Small signal amplifier using the MOS transistor |
| Link |
NOC:Analog Circuits |
Lecture 25 - Basic amplifier structure |
| Link |
NOC:Analog Circuits |
Lecture 26 - Problems with the basic structure |
| Link |
NOC:Analog Circuits |
Lecture 27 - Adding bias and signal-ac coupling |
| Link |
NOC:Analog Circuits |
Lecture 28 - Common source amplifier with biasing |
| Link |
NOC:Analog Circuits |
Lecture 29 - Common source amplifier: Small signal equivalent circuit |
| Link |
NOC:Analog Circuits |
Lecture 30 - Common source amplifier analysis: Effect of biasing components |
| Link |
NOC:Analog Circuits |
Lecture 31 - Constraint on the input coupling capacitor |
| Link |
NOC:Analog Circuits |
Lecture 32 - Constraint on the output coupling capacitor |
| Link |
NOC:Analog Circuits |
Lecture 33 - Dependence of ID on VDS |
| Link |
NOC:Analog Circuits |
Lecture 34 - Small signal output conductance of a MOS transistor |
| Link |
NOC:Analog Circuits |
Lecture 35 - Effect of gds on a common source amplifier; Inherent gain limit of a transistor |
| Link |
NOC:Analog Circuits |
Lecture 36 - Variation gm with transistor parameters |
| Link |
NOC:Analog Circuits |
Lecture 37 - Variation of gm with constant VGS and constant drain current bias |
| Link |
NOC:Analog Circuits |
Lecture 38 - Negative feedback control for constant drain current bias |
| Link |
NOC:Analog Circuits |
Lecture 39 - Types of feedback for constant drain current bias |
| Link |
NOC:Analog Circuits |
Lecture 40 - Sense at the drain and feedback to the gate-Drain feedback |
| Link |
NOC:Analog Circuits |
Lecture 41 - Intuitive explanation of low sensitivity with drain feedback |
| Link |
NOC:Analog Circuits |
Lecture 42 - Common source amplifier with drain feedback bias |
| Link |
NOC:Analog Circuits |
Lecture 43 - Constraint on the gate bias resistor |
| Link |
NOC:Analog Circuits |
Lecture 44 - Constraint on the input coupling capacitor |
| Link |
NOC:Analog Circuits |
Lecture 45 - Constraint on the output coupling capacitor |
| Link |
NOC:Analog Circuits |
Lecture 46 - Input and output resistances of the common source amplifier with constant VGS bias |
| Link |
NOC:Analog Circuits |
Lecture 47 - Current mirror |
| Link |
NOC:Analog Circuits |
Lecture 48 - Common souce amplifier with current mirror bias |
| Link |
NOC:Analog Circuits |
Lecture 49 - Constraint on coupling capacitors and bias resistance |
| Link |
NOC:Analog Circuits |
Lecture 50 - Diode connected transistor |
| Link |
NOC:Analog Circuits |
Lecture 51 - Source feedback biasing |
| Link |
NOC:Analog Circuits |
Lecture 52 - Common source amplifier with source feedback bias |
| Link |
NOC:Analog Circuits |
Lecture 53 - Constraints on capacitor values |
| Link |
NOC:Analog Circuits |
Lecture 54 - Sensing at the drain and feeding back to the source |
| Link |
NOC:Analog Circuits |
Lecture 55 - Sensing at the source and feeding back to the gate |
| Link |
NOC:Analog Circuits |
Lecture 56 - Ensuring that transistor is in saturation |
| Link |
NOC:Analog Circuits |
Lecture 57 - Using a resistor instead of current source for biasing |
| Link |
NOC:Analog Circuits |
Lecture 58 - Controlled sources using a MOS transistor-Introduction |
| Link |
NOC:Analog Circuits |
Lecture 59 - Voltage controlled voltage source |
| Link |
NOC:Analog Circuits |
Lecture 60 - VCVS using a MOS transistor |
| Link |
NOC:Analog Circuits |
Lecture 61 - VCVS using a MOS transistor - Small signal picture |
| Link |
NOC:Analog Circuits |
Lecture 62 - VCVS using a MOS transistor - Complete circuit |
| Link |
NOC:Analog Circuits |
Lecture 63 - Source follower: Effect of output conductance; Constraints on coupling capacitors |
| Link |
NOC:Analog Circuits |
Lecture 64 - VCCS using a MOS transistor |
| Link |
NOC:Analog Circuits |
Lecture 65 - VCCS using a MOS transistor: Small signal picture |
| Link |
NOC:Analog Circuits |
Lecture 66 - VCCS using a MOS transistor: Complete circuit |
| Link |
NOC:Analog Circuits |
Lecture 67 - VCCS using a MOS transistor: AC coupling the output |
| Link |
NOC:Analog Circuits |
Lecture 68 - Source degenrated CS amplifier |
| Link |
NOC:Analog Circuits |
Lecture 69 - CCCS using a MOS transistor |
| Link |
NOC:Analog Circuits |
Lecture 70 - CCCS using a MOS transistor: Small signal picture |
| Link |
NOC:Analog Circuits |
Lecture 71 - CCCS using a MOS transistor: Complete circuit |
| Link |
NOC:Analog Circuits |
Lecture 72 - CCVS using a MOS transistor |
| Link |
NOC:Analog Circuits |
Lecture 73 - CCVS using a MOS transistor: Gain |
| Link |
NOC:Analog Circuits |
Lecture 74 - CCVS using a MOS transistor: Input and output resistances |
| Link |
NOC:Analog Circuits |
Lecture 75 - CCVS using a MOS transistor: Complete circuit |
| Link |
NOC:Analog Circuits |
Lecture 76 - VCVS using an opamp |
| Link |
NOC:Analog Circuits |
Lecture 77 - CCVS using an opamp |
| Link |
NOC:Analog Circuits |
Lecture 78 - Negative feedback and virtual short in an opamp |
| Link |
NOC:Analog Circuits |
Lecture 79 - Negative feedback and virtual short in a transistor |
| Link |
NOC:Analog Circuits |
Lecture 80 - Constraints on controlled sources using opamps and transistors |
| Link |
NOC:Analog Circuits |
Lecture 81 - Quick tour of amplifying devices |
| Link |
NOC:Analog Circuits |
Lecture 82 - Signal swing limits in amplifiers |
| Link |
NOC:Analog Circuits |
Lecture 83 - Swing limit due to transistor entering triode region |
| Link |
NOC:Analog Circuits |
Lecture 84 - Swing limit due to transistor entering cutoff region |
| Link |
NOC:Analog Circuits |
Lecture 85 - Swing limit calculation example |
| Link |
NOC:Analog Circuits |
Lecture 86 - Swing limits-more calculations |
| Link |
NOC:Analog Circuits |
Lecture 87 - pMOS transistor |
| Link |
NOC:Analog Circuits |
Lecture 88 - Small signal model of the pMOS transistor |
| Link |
NOC:Analog Circuits |
Lecture 89 - Common source amplifier using the pMOS transistor |
| Link |
NOC:Analog Circuits |
Lecture 90 - Swing limits of the pMOS common source amplifier |
| Link |
NOC:Analog Circuits |
Lecture 91 - Biasing a pMOS transistor at a constant current; pMOS current mirror |
| Link |
NOC:Analog Circuits |
Lecture 92 - Converting nMOS transistor circuits to pMOS |
| Link |
NOC:Analog Circuits |
Lecture 93 - Bias current generation |
| Link |
NOC:Analog Circuits |
Lecture 94 - Examples of more than one transistor in feedback |
| Link |
NOC:Analog Circuits |
Lecture 95 - Gain limitation in a common source amplifier with resistive load |
| Link |
NOC:Analog Circuits |
Lecture 96 - nMOS active load for pMOS common source amplifier |
| Link |
NOC:Analog Circuits |
Lecture 97 - CMOS inverter |
| Link |
NOC:Analog Circuits |
Lecture 98 - Large signal characteristics of pMOS CS amplifier with nMOS active load |
| Link |
NOC:Analog Circuits |
Lecture 99 - Large signal characteristics of nMOS CS amplifier with pMOS active load |
| Link |
NOC:Analog Circuits |
Lecture 100 - Large signal characteristics of a CMOS inverter |
| Link |
NOC:Analog Circuits |
Lecture 101 - Active load amplifiers as digital gates |
| Link |
NOC:Analog Circuits |
Lecture 102 - Sensitivity of output bias to input bias in a CMOS inverter |
| Link |
NOC:Analog Circuits |
Lecture 103 - Self biasing a CMOS inverter |
| Link |
NOC:Analog Circuits |
Lecture 104 - An application of self biased inverters |
| Link |
NOC:Analog Circuits |
Lecture 105 - Current consumption of a self-biased inverter; Current biasing |
| Link |
NOC:Analog Circuits |
Lecture 106 - Amplifying a difference signal; Differential pair |
| Link |
NOC:Analog Circuits |
Lecture 107 - Differential pair-small signal basics |
| Link |
NOC:Analog Circuits |
Lecture 108 - Biasing a differential pair |
| Link |
NOC:Analog Circuits |
Lecture 109 - Differential pair with differential excitation |
| Link |
NOC:Analog Circuits |
Lecture 110 - Differential pair with a current mirror load |
| Link |
NOC:Analog Circuits |
Lecture 111 - Differential pair with a current mirror load - operating point |
| Link |
NOC:Analog Circuits |
Lecture 112 - Differential pair with a current mirror load - Norton equivalent current |
| Link |
NOC:Analog Circuits |
Lecture 113 - Differential pair with a current mirror load - Norton equivalent resistance |
| Link |
NOC:Analog Circuits |
Lecture 114 - Common mode gain |
| Link |
NOC:Analog Circuits |
Lecture 115 - Single stage opamp |
| Link |
NOC:Analog Circuits |
Lecture 116 - Single stage opamp: Input common mode swing limits |
| Link |
NOC:Analog Circuits |
Lecture 117 - Single stage opamp: Output swing limits |
| Link |
NOC:Analog Circuits |
Lecture 118 - Which transistor type to use for the second stage? |
| Link |
NOC:Analog Circuits |
Lecture 119 - Small signal gain |
| Link |
NOC:Analog Circuits |
Lecture 120 - DC negative feedback biasing of all stages |
| Link |
NOC:Analog Circuits |
Lecture 121 - DC negative feedback biasing of all stages (Continued...) |
| Link |
NOC:Analog Circuits |
Lecture 122 - Small signal model |
| Link |
NOC:Analog Circuits |
Lecture 123 - Swing limits |
| Link |
NOC:Analog Circuits |
Lecture 124 - Systematic offset; How to eliminate it |
| Link |
NOC:Analog Circuits |
Lecture 125 - Bipolar junction transistor(BJT): Large signal model |
| Link |
NOC:Analog Circuits |
Lecture 126 - BJT model for calculating operating points |
| Link |
NOC:Analog Circuits |
Lecture 127 - BJT small signal model |
| Link |
NOC:Analog Circuits |
Lecture 128 - Biasing a BJT |
| Link |
NOC:Analog Circuits |
Lecture 129 - Biasing a BJT, (Continued...) |
| Link |
NOC:Analog Circuits |
Lecture 130 - Amplifiers using BJTs |
| Link |
NOC:Analog Circuits |
Lecture 131 - PNP transistor |
| Link |
NOC:Introduction to Non Linear Dynamics |
Lecture 1 - A brief introduction to modelling |
| Link |
NOC:Introduction to Non Linear Dynamics |
Lecture 2 - Dynamics and Nonlinear systems: getting started |
| Link |
NOC:Introduction to Non Linear Dynamics |
Lecture 3 - 1-Dimensional Flows, Flows on the Line, Lecture 1 |
| Link |
NOC:Introduction to Non Linear Dynamics |
Lecture 4 - 1-Dimensional Flows, Flows on the Line, Lecture 2 |
| Link |
NOC:Introduction to Non Linear Dynamics |
Lecture 5 - 1-Dimensional Flows, Flows on the Line, Lecture 3 |
| Link |
NOC:Introduction to Non Linear Dynamics |
Lecture 6 - 1-Dimensional Flows, Flows on the Line, Lecture 4 |
| Link |
NOC:Introduction to Non Linear Dynamics |
Lecture 7 - 1-Dimensional Flows, Flows on the Line, Lecture 5 |
| Link |
NOC:Introduction to Non Linear Dynamics |
Lecture 8 - 1-Dimensional Flows, Flows on the Line, Lecture 6 |
| Link |
NOC:Introduction to Non Linear Dynamics |
Lecture 9 - 1-Dimensional Flows, Bifurcations, Lecture 1 |
| Link |
NOC:Introduction to Non Linear Dynamics |
Lecture 10 - 1-Dimensional Flows, Bifurcations, Lecture 2 |
| Link |
NOC:Introduction to Non Linear Dynamics |
Lecture 11 - 1-Dimensional Flows, Bifurcations, Lecture 3 |
| Link |
NOC:Introduction to Non Linear Dynamics |
Lecture 12 - 1-Dimensional Flows, Bifurcations, Lecture 4 |
| Link |
NOC:Introduction to Non Linear Dynamics |
Lecture 13 - 1-Dimensional Flows, Bifurcations, Lecture 5 |
| Link |
NOC:Introduction to Non Linear Dynamics |
Lecture 14 - 1-Dimensional Flows, Bifurcations, Lecture 6 |
| Link |
NOC:Introduction to Non Linear Dynamics |
Lecture 15 - 1-Dimensional Flows, Flows on the Circle, Lecture 1 |
| Link |
NOC:Introduction to Non Linear Dynamics |
Lecture 16 - 1-Dimensional Flows, Flows on the Circle, Lecture 2 |
| Link |
NOC:Introduction to Non Linear Dynamics |
Lecture 17 - 2-Dimensional Flows, Linear Systems, Lecture 1 |
| Link |
NOC:Introduction to Non Linear Dynamics |
Lecture 18 - 2-Dimensional Flows, Linear Systems, Lecture 2 |
| Link |
NOC:Introduction to Non Linear Dynamics |
Lecture 19 - 2-Dimensional Flows, Linear Systems, Lecture 3 |
| Link |
NOC:Introduction to Non Linear Dynamics |
Lecture 20 - 2-Dimensional Flows, Linear Systems, Lecture 4 |
| Link |
NOC:Introduction to Non Linear Dynamics |
Lecture 21 - 2-Dimensional Flows, Phase Plane, Lecture 1 |
| Link |
NOC:Introduction to Non Linear Dynamics |
Lecture 22 - 2-Dimensional Flows, Phase Plane, Lecture 2 |
| Link |
NOC:Introduction to Non Linear Dynamics |
Lecture 23 - 2-Dimensional Flows, Phase Plane, Lecture 3 |
| Link |
NOC:Introduction to Non Linear Dynamics |
Lecture 24 - 2-Dimensional Flows, Limit Cycles, Lecture 1 |
| Link |
NOC:Introduction to Non Linear Dynamics |
Lecture 25 - 2-Dimensional Flows, Limit Cycles, Lecture 2 |
| Link |
NOC:Introduction to Non Linear Dynamics |
Lecture 26 - 2-Dimensional Flows, Limit Cycles, Lecture 3 |
| Link |
NOC:Introduction to Non Linear Dynamics |
Lecture 27 - 2-Dimensional Flows, Bifurcations, Lecture 1 |
| Link |
NOC:Introduction to Non Linear Dynamics |
Lecture 28 - 2-Dimensional Flows, Bifurcations, Lecture 2 |
| Link |
NOC:Introduction to Non Linear Dynamics |
Lecture 29 - 2-Dimensional Flows, Bifurcations, Lecture 3 |
| Link |
NOC:Control Engineering |
Lecture 1 - Introduction to Systems and Control |
| Link |
NOC:Control Engineering |
Lecture 2 - Modelling of Systems |
| Link |
NOC:Control Engineering |
Lecture 3 - Elements of Modelling |
| Link |
NOC:Control Engineering |
Lecture 4 - Examples of Modelling |
| Link |
NOC:Control Engineering |
Lecture 5 - Solving Problems in Modelling of Systems |
| Link |
NOC:Control Engineering |
Lecture 6 - Laplace Transforms |
| Link |
NOC:Control Engineering |
Lecture 7 - Inverse Laplace Transforms |
| Link |
NOC:Control Engineering |
Lecture 8 - Transfer Function of Modelling Block Diagram Representation |
| Link |
NOC:Control Engineering |
Lecture 9 - Solving Problems on Laplace Transforms and Transfer Functions |
| Link |
NOC:Control Engineering |
Lecture 10 - Block Diagram Reduction, Signal Flow Graphs |
| Link |
NOC:Control Engineering |
Lecture 11 - Solving Problems on Block Diagram Reduction, Signal Flow Graphs |
| Link |
NOC:Control Engineering |
Lecture 12 - Time Response Analyzsis of systems |
| Link |
NOC:Control Engineering |
Lecture 13 - Time Response specifications |
| Link |
NOC:Control Engineering |
Lecture 14 - Solving Problems on Time Response Analyzsis ans specifications |
| Link |
NOC:Control Engineering |
Lecture 15 - Stability |
| Link |
NOC:Control Engineering |
Lecture 16 - Routh Hurwitz Criterion |
| Link |
NOC:Control Engineering |
Lecture 17 - Routh Hurwitz Criterion T 1 |
| Link |
NOC:Control Engineering |
Lecture 18 - Closed loop System and Stability |
| Link |
NOC:Control Engineering |
Lecture 19 - Root Locus Technique |
| Link |
NOC:Control Engineering |
Lecture 20 - Root Locus Plots |
| Link |
NOC:Control Engineering |
Lecture 21 - Root Locus Plots (Continued...) |
| Link |
NOC:Control Engineering |
Lecture 22 - Root Locus Plots (Continued...) |
| Link |
NOC:Control Engineering |
Lecture 23 - Root Locus Plots (Continued...) |
| Link |
NOC:Control Engineering |
Lecture 24 - Introduction to Frequency Response |
| Link |
NOC:Control Engineering |
Lecture 25 - Frequency Response Plots |
| Link |
NOC:Control Engineering |
Lecture 26 - Relative Stability |
| Link |
NOC:Control Engineering |
Lecture 27 - Bode plots |
| Link |
NOC:Control Engineering |
Lecture 28 - Basics of Control design Proportional, Integral and Derivative Actions |
| Link |
NOC:Control Engineering |
Lecture 29 - Basics of Control design Proportional, Integral and Derivative Actions |
| Link |
NOC:Control Engineering |
Lecture 30 - Problems on PID Controllers |
| Link |
NOC:Control Engineering |
Lecture 31 - Basics of Control design Proportional, Integral and Derivative Actions |
| Link |
NOC:Control Engineering |
Lecture 32 - Control design in time domain and discusses the lead compensator |
| Link |
NOC:Control Engineering |
Lecture 33 - Improvement of the Transient Response using lead compensation |
| Link |
NOC:Control Engineering |
Lecture 34 - Design of control using lag compensators |
| Link |
NOC:Control Engineering |
Lecture 35 - The design of Lead-Lag compensators using root locus |
| Link |
NOC:Control Engineering |
Lecture 36 - Introduction design of control in frequency domain |
| Link |
NOC:Control Engineering |
Lecture 37 - Design of Lead Compensator using Bode Plots |
| Link |
NOC:Control Engineering |
Lecture 38 - Design of Lag Compensators using Bode Plots |
| Link |
NOC:Control Engineering |
Lecture 39 - Design of Lead-Lag Compensators using Bode plots |
| Link |
NOC:Control Engineering |
Lecture 40 - Experimental Determination of Transfer Function |
| Link |
NOC:Control Engineering |
Lecture 41 - Effect of Zeros on System Response |
| Link |
NOC:Control Engineering |
Lecture 42 - Navigation - Stories and Some Basics |
| Link |
NOC:Control Engineering |
Lecture 43 - Navigation - Dead Reckoning and Reference Frames |
| Link |
NOC:Control Engineering |
Lecture 44 - Inertial Sensors and Their Characteristics |
| Link |
NOC:Control Engineering |
Lecture 45 - Filter Design to Attentuate Inertial Sensor Noise |
| Link |
NOC:Control Engineering |
Lecture 46 - Complementary Filter |
| Link |
NOC:Control Engineering |
Lecture 47 - Complementary Filter - 1 |
| Link |
NOC:Control Engineering |
Lecture 48 - Introduction to State Space Systems |
| Link |
NOC:Control Engineering |
Lecture 49 - Linearization of State Space Dynamics |
| Link |
NOC:Control Engineering |
Lecture 50 - Linearization of State Space Dynamics - 1 |
| Link |
NOC:Control Engineering |
Lecture 51 - Controllability and Observability |
| Link |
NOC:Control Engineering |
Lecture 52 - State Space Canonical Forms |
| Link |
NOC:Control Engineering |
Lecture 53 - State Space Solution and Matrix Exponential |
| Link |
NOC:Control Engineering |
Lecture 54 - Controllability and Pole Placement |
| Link |
NOC:Control Engineering |
Lecture 55 - Controllable Decomposition and Observability |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 1 - Experiments, Outcomes and Events |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 2 - Examples: Experiments and sample spaces |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 3 - Operations on Events |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 4 - Examples: Sample spaces and events |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 5 - Sigma Fields and Probability |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 6 - Discrete Sample Spaces |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 7 - Union and Partition |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 8 - Examples: Probability Calculation for Equally likely Outcomes |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 9 - Definition and Basic Properties |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 10 - Bayes' Rule for Partitions |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 11 - Examples: Conditional probability |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 12 - Example of Detection |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 13 - Example: Coloured Cards from a Box |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 14 - Independence of Events |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 15 - Examples: Independence |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 16 - Combining Independent Experiments |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 17 - Conditional Independence |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 18 - Examples and Computations with Conditional Independence |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 19 - Binomial and Geometric Models |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 20 - Examples: Binomial and Geometric Model |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 21 - Definition and Discrete Setting |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 22 - RandomVariables and Events |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 23 - Examples: Discrete random variables |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 24 - Important distributions |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 25 - Examples: Discrete PMFs |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 26 - Real-life modeling example |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 27 - More Distributions |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 28 - Conditional PMFs, Conditioning on an event, Indicator random variables |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 29 - Example: Conditioning on an event, Indicator random variables |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 30 - Multiple random variables and joint distribution |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 31 - Example: Two random variables |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 32 - Marginal PMF |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 33 - Trinomial joint PMF |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 34 - Events and Conditioning with Two Random Variables |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 35 - Example: compute marginal and conditional PMFs, probability of events |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 36 - Independent random variables |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 37 - More on independence |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 38 - Example: IID Repetitions |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 39 - Addition of Random Variables |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 40 - Sum, Difference and Max of Two Random Variables |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 41 - More Computations: Min of Two Random Variables |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 42 - Example: X+Y, X-Y, min(X,Y), max(X,Y) |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 43 - Real line as sample space |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 44 - Probability density function (pdf) |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 45 - Cumulative distribution function (CDF) |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 46 - Continuous random variables |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 47 - pdf and CDF of continuous random variables |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 48 - Spinning pointer example |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 49 - Important continuous distributions |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 50 - More continuous distributions |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 51 - Two-dimensional real sample space |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 52 - Joint pdf and joint CDF |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 53 - More on assigning probability to regions of x-y plain |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 54 - Darts example and marginal pdfs |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 55 - Independence to two continuous random variables |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 56 - Examples: two independent continuous random variables |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 57 - Prob[ X > Y ]: computation of probability of a non-rectangular region |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 58 - Transformations of random variables |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 59 - CDF method |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 60 - pdf method |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 61 - Examples |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 62 - One-to-one transformations |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 63 - Expected Value or Mean of a Random Variable |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 64 - Properties of Expectation |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 65 - Expectation Computations for Important Distributions |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 66 - Variance |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 67 - Examples of Variance |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 68 - Expectations with Two Random Variables |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 69 - Correlation and Covariance |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 70 - Examples: Continuous Distributions |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 71 - Examples: Symmetry |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 72 - Examples: Discrete Distributions |
| Link |
NOC:Probability Foundations for Electrical Engineers |
Lecture 73 - Live Session |
| Link |
NOC:Introduction to Photonics |
Lecture 1 - Introduction to Photonics |
| Link |
NOC:Introduction to Photonics |
Lecture 2 - Diffraction and Interference |
| Link |
NOC:Introduction to Photonics |
Lecture 3 - Tutorial on Ray Optics and Wave Optics |
| Link |
NOC:Introduction to Photonics |
Lecture 4 - Lab Demonstration : Diffractions and Interference |
| Link |
NOC:Introduction to Photonics |
Lecture 5 - Interferometers |
| Link |
NOC:Introduction to Photonics |
Lecture 6 - Coherence |
| Link |
NOC:Introduction to Photonics |
Lecture 7 - Spatial and Temporal Coherence |
| Link |
NOC:Introduction to Photonics |
Lecture 8 - Tutorial on Wave Optics |
| Link |
NOC:Introduction to Photonics |
Lecture 9 - Lab Demonstration: Michelson Interferometer |
| Link |
NOC:Introduction to Photonics |
Lecture 10 - Electromagnetic Optics |
| Link |
NOC:Introduction to Photonics |
Lecture 11 - Fiber Optics |
| Link |
NOC:Introduction to Photonics |
Lecture 12 - Photon Properties |
| Link |
NOC:Introduction to Photonics |
Lecture 13 - Lab Demonstration: Fiber modes, NA and MFD |
| Link |
NOC:Introduction to Photonics |
Lecture 14 - Photon Optics |
| Link |
NOC:Introduction to Photonics |
Lecture 15 - Tutorial on Photon optics |
| Link |
NOC:Introduction to Photonics |
Lecture 16 - Photon interaction - 1 |
| Link |
NOC:Introduction to Photonics |
Lecture 17 - Photon interaction - 2 |
| Link |
NOC:Introduction to Photonics |
Lecture 18 - Lab Demonstration: Interaction of light with matter |
| Link |
NOC:Introduction to Photonics |
Lecture 19 - Optical Amplification |
| Link |
NOC:Introduction to Photonics |
Lecture 20 - Three Level systems |
| Link |
NOC:Introduction to Photonics |
Lecture 21 - Four Level Systems |
| Link |
NOC:Introduction to Photonics |
Lecture 22 - EDFA Introduction |
| Link |
NOC:Introduction to Photonics |
Lecture 23 - EDFA Tutorial |
| Link |
NOC:Introduction to Photonics |
Lecture 24 - Lasers Part - 1 |
| Link |
NOC:Introduction to Photonics |
Lecture 25 - Lab Demonstration: EDFA Characterization |
| Link |
NOC:Introduction to Photonics |
Lecture 26 - Lasers part- 2 |
| Link |
NOC:Introduction to Photonics |
Lecture 27 - Lasers part- 3 |
| Link |
NOC:Introduction to Photonics |
Lecture 28 - Lasers part- 4 |
| Link |
NOC:Introduction to Photonics |
Lecture 29 - Lab Demonstration: Fiber Laser |
| Link |
NOC:Introduction to Photonics |
Lecture 30 - Semiconductor light Source and detector - Band structure |
| Link |
NOC:Introduction to Photonics |
Lecture 31 - Semiconductor light Source and detector - Light emission |
| Link |
NOC:Introduction to Photonics |
Lecture 32 - Semiconductor light Source and detector LED Characteristics |
| Link |
NOC:Introduction to Photonics |
Lecture 33 - Lab Demonstration: Semiconductor Sources |
| Link |
NOC:Introduction to Photonics |
Lecture 34 - Semiconductor light Source and detector Laser Characteristics |
| Link |
NOC:Introduction to Photonics |
Lecture 35 - Semiconductor Detectors - 1 |
| Link |
NOC:Introduction to Photonics |
Lecture 36 - Semiconductor Detectors - 2 |
| Link |
NOC:Introduction to Photonics |
Lecture 37 - Semiconductor Detectors - 3 |
| Link |
NOC:Introduction to Photonics |
Lecture 38 - Lab Demonstration: Semiconductor Detectors |
| Link |
NOC:Introduction to Photonics |
Lecture 39 - Semiconductor Detectors - 4 |
| Link |
NOC:Introduction to Photonics |
Lecture 40 - Light manipulation-Mallus' Law |
| Link |
NOC:Introduction to Photonics |
Lecture 41 - Light manipulation-Birefringence |
| Link |
NOC:Introduction to Photonics |
Lecture 42 - Light manipulation-Faraday Rotation |
| Link |
NOC:Introduction to Photonics |
Lecture 43 - Lab Demonstration: Manipulation of Light Intensity and Polarization |
| Link |
NOC:Introduction to Photonics |
Lecture 44 - Non-linear optics-Pockels effect |
| Link |
NOC:Introduction to Photonics |
Lecture 45 - Non-linear optics-Kerr Effect |
| Link |
NOC:Introduction to Photonics |
Lecture 46 - Lab Demonstration: Manipulation of Light Electro Optic Modulator (EOM) |
| Link |
NOC:Introduction to Photonics |
Lecture 47 - Non-linear optics-stimulated Brillouin scattering |
| Link |
NOC:Introduction to Photonics |
Lecture 48 - Non-linear optics-stimulated Raman scattering |
| Link |
NOC:Multirate DSP |
Lecture 1 - Introduction to Multirate DSP - Part 1 |
| Link |
NOC:Multirate DSP |
Lecture 2 - Introduction to Multirate DSP - Part 2 |
| Link |
NOC:Multirate DSP |
Lecture 3 - Sampling and Nyquist criterion - Part 1 |
| Link |
NOC:Multirate DSP |
Lecture 4 - Sampling and Nyquist criterion - Part 2 |
| Link |
NOC:Multirate DSP |
Lecture 5 - Signal Reconstruction - Part 1 |
| Link |
NOC:Multirate DSP |
Lecture 6 - Signal Reconstruction - Part 2 |
| Link |
NOC:Multirate DSP |
Lecture 7 - Reconstruction filter - Part 1 |
| Link |
NOC:Multirate DSP |
Lecture 8 - Reconstruction filter - Part 2 |
| Link |
NOC:Multirate DSP |
Lecture 9 - Discrete time processing of continuous time signal - Part 1 |
| Link |
NOC:Multirate DSP |
Lecture 10 - Discrete time processing of continuous time signal - Part 2 |
| Link |
NOC:Multirate DSP |
Lecture 11 - DT processing of CT signal example |
| Link |
NOC:Multirate DSP |
Lecture 12 - Time scaling- upsampler and downsampler - Part 1 |
| Link |
NOC:Multirate DSP |
Lecture 13 - Time scaling- upsampler and downsampler - Part 2 |
| Link |
NOC:Multirate DSP |
Lecture 14 - Upsampler and downsampler- continued - Part 1 |
| Link |
NOC:Multirate DSP |
Lecture 15 - Upsampler and downsampler- continued - Part 2 |
| Link |
NOC:Multirate DSP |
Lecture 16 - Decimator properties |
| Link |
NOC:Multirate DSP |
Lecture 17 - Properties of Upsampler and Downsampler |
| Link |
NOC:Multirate DSP |
Lecture 18 - Fractional sampling rate change - Part 1 |
| Link |
NOC:Multirate DSP |
Lecture 19 - Fractional sampling rate change - Part 2 |
| Link |
NOC:Multirate DSP |
Lecture 20 - Multiplexer/ demultiplexer interpretation |
| Link |
NOC:Multirate DSP |
Lecture 21 - Noble identities and polyphase decomposition - Part 1 |
| Link |
NOC:Multirate DSP |
Lecture 22 - Noble identities and polyphase decomposition - Part 2 |
| Link |
NOC:Multirate DSP |
Lecture 23 - Polyphase decomposition continued - Part 1 |
| Link |
NOC:Multirate DSP |
Lecture 24 - Polyphase decomposition continued - Part 2 |
| Link |
NOC:Multirate DSP |
Lecture 25 - Introduction to Multirate Filter Banks |
| Link |
NOC:Multirate DSP |
Lecture 26 - Applications of Multirate - Part 1 |
| Link |
NOC:Multirate DSP |
Lecture 27 - Applications of Multirate - Part 2 |
| Link |
NOC:Multirate DSP |
Lecture 28 - Spectral Analysis of Filter Bank - Part 1 |
| Link |
NOC:Multirate DSP |
Lecture 29 - Spectral Analysis of Filter Bank - Part 2 |
| Link |
NOC:Multirate DSP |
Lecture 30 - DFT and High Resolution Spectral Analysis - Part 1 |
| Link |
NOC:Multirate DSP |
Lecture 31 - DFT and High Resolution Spectral Analysis - Part 2 |
| Link |
NOC:Multirate DSP |
Lecture 32 - Transmultiplexer and Maximally Decimated Filterbanks - Part 1 |
| Link |
NOC:Multirate DSP |
Lecture 33 - Transmultiplexer and Maximally Decimated Filterbanks - Part 2 |
| Link |
NOC:Multirate DSP |
Lecture 34 - Maximally Decimated Filterbanks 2 - Part 1 |
| Link |
NOC:Multirate DSP |
Lecture 35 - Maximally Decimated Filterbanks 2 - Part 2 |
| Link |
NOC:Multirate DSP |
Lecture 36 - Study of Two-channel filter bank |
| Link |
NOC:Multirate DSP |
Lecture 37 - Introduction to Quadrature Mirror Filters (QMF) |
| Link |
NOC:Multirate DSP |
Lecture 38 - 2-channel QMF Filter Bank Design |
| Link |
NOC:Multirate DSP |
Lecture 39 - Study of All-pass filters |
| Link |
NOC:Multirate DSP |
Lecture 40 - Study of All-pass lattice |
| Link |
NOC:Multirate DSP |
Lecture 41 - All-pass decomposition, the study of Mth band and Nyquist filters |
| Link |
NOC:Multirate DSP |
Lecture 42 - Study of two-channel filter bank with perfect reconstruction |
| Link |
NOC:Multirate DSP |
Lecture 43 - First part name : Perfect Reconstruction Final Overview. Second part name : Introduction to OFDM- Motivation - Part 1 |
| Link |
NOC:Multirate DSP |
Lecture 44 - First part name : Perfect Reconstruction Final Overview. Second part name : Introduction to OFDM- Motivation - Part 2 |
| Link |
NOC:Multirate DSP |
Lecture 45 - Capacity of wireless channels - CSIR - Part 1 |
| Link |
NOC:Multirate DSP |
Lecture 46 - Capacity of wireless channels - CSIT - Part 2 |
| Link |
NOC:Multirate DSP |
Lecture 47 - Capacity of wireless channels - Formulation of capacity calculation - Part 3 |
| Link |
NOC:Multirate DSP |
Lecture 48 - Capacity of wireless channels - Formulation of capacity calculation (Continued...) - Part 1 |
| Link |
NOC:Multirate DSP |
Lecture 49 - Capacity of wireless channels - Formulation of capacity calculation (Continued...) - Part 2 |
| Link |
NOC:Multirate DSP |
Lecture 50 - Capacity of wireless channels - Time-invariant Frequency selective channel - Part 3 |
| Link |
NOC:Multirate DSP |
Lecture 51 - Capacity of wireless channels - Time varying Frequency selective channels - Part 1 |
| Link |
NOC:Multirate DSP |
Lecture 52 - Multi-rate DSP framework for Multi-carrier Modulation - Part 2 |
| Link |
NOC:Multirate DSP |
Lecture 53 - MCM with overlapping spectra - Part 1 |
| Link |
NOC:Multirate DSP |
Lecture 54 - Recap of multirate DSP concepts for building OFDM - Part 2 |
| Link |
NOC:Multirate DSP |
Lecture 55 - Introduction to Redundancy and it's implementation in multi-rate framework - Part 3 |
| Link |
NOC:Multirate DSP |
Lecture 56 - M-channel multicarrier Transceiver - Part 1 |
| Link |
NOC:Multirate DSP |
Lecture 57 - M-channel multicarrier Transceiver - Part 2 |
| Link |
NOC:Multirate DSP |
Lecture 58 - M-channel multicarrier Transceiver - Part 3 |
| Link |
NOC:Multirate DSP |
Lecture 59 - Pseudo -circulant structure - Part 1 |
| Link |
NOC:Multirate DSP |
Lecture 60 - Pseudo -circulant structure - Part 2 |
| Link |
NOC:Multirate DSP |
Lecture 61 - MCM impairments and CP - Part 1 |
| Link |
NOC:Multirate DSP |
Lecture 62 - MCM impairments and CP - Part 2 |
| Link |
NOC:Multirate DSP |
Lecture 63 - Orthogonal Frequency Division Multiplexing - Part 1 |
| Link |
NOC:Multirate DSP |
Lecture 64 - Orthogonal Frequency Division Multiplexing - Part 2 |
| Link |
NOC:Multirate DSP |
Lecture 65 - Review of OFDM with CP |
| Link |
NOC:Multirate DSP |
Lecture 66 - Review of Lec 1-28 |
| Link |
NOC:Multirate DSP |
Lecture 67 - OFDM applications - Quantization - Part 1 |
| Link |
NOC:Multirate DSP |
Lecture 68 - OFDM applications - Quantization - Part 2 |
| Link |
NOC:Multirate DSP |
Lecture 69 - Some more applications of MDSP |
| Link |
NOC:LDPC and Polar Codes in 5G Standard |
Lecture 1 - Additive White Gaussian Noise (AWGN) Channel and BPSK |
| Link |
NOC:LDPC and Polar Codes in 5G Standard |
Lecture 2 - Bit Error Rate (BER) and Signal to Noise Ratio (SNR) |
| Link |
NOC:LDPC and Polar Codes in 5G Standard |
Lecture 3 - Error Correction Coding in a Digital Communication System |
| Link |
NOC:LDPC and Polar Codes in 5G Standard |
Lecture 4 - Complementary Error Function |
| Link |
NOC:LDPC and Polar Codes in 5G Standard |
Lecture 5 - Simulation of Uncoded BPSK and BER v/s Eb/N0 plot Generation in MATLAB/Octave |
| Link |
NOC:LDPC and Polar Codes in 5G Standard |
Lecture 6 - n = 3 Repetition Code |
| Link |
NOC:LDPC and Polar Codes in 5G Standard |
Lecture 7 - Implementation of n = 3 Repetition Code in MATLAB |
| Link |
NOC:LDPC and Polar Codes in 5G Standard |
Lecture 8 - (7,4) Hamming Code |
| Link |
NOC:LDPC and Polar Codes in 5G Standard |
Lecture 9 - A Brief Introduction to Linear Block Codes |
| Link |
NOC:LDPC and Polar Codes in 5G Standard |
Lecture 10 - Simulation of (7,4) Hamming Code in MATLAB |
| Link |
NOC:LDPC and Polar Codes in 5G Standard |
Lecture 11 - Low Density Parity Check Codes: definition, properties and introduction to protograph construction |
| Link |
NOC:LDPC and Polar Codes in 5G Standard |
Lecture 12 - LDPC Codes in 5G: protograph, base matrix, expansion |
| Link |
NOC:LDPC and Polar Codes in 5G Standard |
Lecture 13 - Encoding LDPC codes in 5G |
| Link |
NOC:LDPC and Polar Codes in 5G Standard |
Lecture 14 - MATLAB programs for encoding LDPC codes |
| Link |
NOC:LDPC and Polar Codes in 5G Standard |
Lecture 15 - Log-Likelihood Ratio and Soft Input and Soft Output (SISO) Decoder for the Repetition Code |
| Link |
NOC:LDPC and Polar Codes in 5G Standard |
Lecture 16 - Soft Input and Soft Output (SISO) Decoder for the Single Parity Check (SPC) Code |
| Link |
NOC:LDPC and Polar Codes in 5G Standard |
Lecture 17 - SISO decoder for a general (n,n-1) SPC code |
| Link |
NOC:LDPC and Polar Codes in 5G Standard |
Lecture 18 - Illustration of SISO decoder for (3,2) SPC code and min-sum approximation |
| Link |
NOC:LDPC and Polar Codes in 5G Standard |
Lecture 19 - Soft-Input Soft-Output Iterative Message Passing Decoder for LDPC Codes |
| Link |
NOC:LDPC and Polar Codes in 5G Standard |
Lecture 20 - A Toy Example Illustration of the SISO MInsum Iterative Message Passing Decoder |
| Link |
NOC:LDPC and Polar Codes in 5G Standard |
Lecture 21 - Modifications to the Decoder: Layered Decoding and Offset |
| Link |
NOC:LDPC and Polar Codes in 5G Standard |
Lecture 22 - Implementation of SISO Layered Minsum Iterative Message Passing Decoder in MATLAB |
| Link |
NOC:LDPC and Polar Codes in 5G Standard |
Lecture 23 - Debugging and Improvements to the MATLAB Implementation |
| Link |
NOC:LDPC and Polar Codes in 5G Standard |
Lecture 24 - Rate Matching in LDPC Codes using Puncturing and Shortening |
| Link |
NOC:LDPC and Polar Codes in 5G Standard |
Lecture 25 - Implementation of Fixed Point Quantization and Offset Minsum in the Decoder |
| Link |
NOC:LDPC and Polar Codes in 5G Standard |
Lecture 26 - Introduction to Polar Codes: Polar Transform |
| Link |
NOC:LDPC and Polar Codes in 5G Standard |
Lecture 27 - Channel Polarization, Definition of (N,K) Polar Code and Encoding |
| Link |
NOC:LDPC and Polar Codes in 5G Standard |
Lecture 28 - MATLAB Implementation for Encoding Polar Codes |
| Link |
NOC:LDPC and Polar Codes in 5G Standard |
Lecture 29 - Successive Cancellation (SC) Decoder for Polar Codes: Illustration of its Building Blocks with N=2,4 |
| Link |
NOC:LDPC and Polar Codes in 5G Standard |
Lecture 30 - Successive Cancellation (SC) Decoder for a General (N,K) Polar Code |
| Link |
NOC:LDPC and Polar Codes in 5G Standard |
Lecture 31 - MATLAB Implementation of Successive Cancellation Decoder - Part 1 |
| Link |
NOC:LDPC and Polar Codes in 5G Standard |
Lecture 32 - MATLAB Implementation of Successive Cancellation Decoder - Part 2 |
| Link |
NOC:LDPC and Polar Codes in 5G Standard |
Lecture 33 - Successive Cancellation List Decoding |
| Link |
NOC:LDPC and Polar Codes in 5G Standard |
Lecture 34 - Fixed Point Quantization for SC Decoder and LDPC Decoder |
| Link |
NOC:LDPC and Polar Codes in 5G Standard |
Lecture 35 - MATLAB Implementation of Successive Cancellation List Decoding |
| Link |
NOC:LDPC and Polar Codes in 5G Standard |
Lecture 36 - Rate Matching for LDPC codes |
| Link |
NOC:LDPC and Polar Codes in 5G Standard |
Lecture 37 - Performance Comparison of LDPC codes and Polar Codes in 5G |
| Link |
NOC:Electromagnetic Compatibility, EMC |
Lecture 1 - Introduction to EMC - Definitions |
| Link |
NOC:Electromagnetic Compatibility, EMC |
Lecture 2 - Introduction to EMC - Sources, units etc |
| Link |
NOC:Electromagnetic Compatibility, EMC |
Lecture 3 - Electromagnetic principles - Faraday's and Ampere's equations |
| Link |
NOC:Electromagnetic Compatibility, EMC |
Lecture 4 - Electromagnetic principles - Gauss's equation, boundary conditions |
| Link |
NOC:Electromagnetic Compatibility, EMC |
Lecture 5 - Electromagnetic principles - Uniform plane wave |
| Link |
NOC:Electromagnetic Compatibility, EMC |
Lecture 6 - Electromagnetic principles - Transmission lines |
| Link |
NOC:Electromagnetic Compatibility, EMC |
Lecture 7 - Electromagnetic principles - Dipoles |
| Link |
NOC:Electromagnetic Compatibility, EMC |
Lecture 8 - High-frequency behaviour of components - Conductors |
| Link |
NOC:Electromagnetic Compatibility, EMC |
Lecture 9 - High-frequency behaviour of components - Capacitors, inductors, resistors |
| Link |
NOC:Electromagnetic Compatibility, EMC |
Lecture 10 - High-frequency behaviour of components - Mechanical switches and transformers |
| Link |
NOC:Electromagnetic Compatibility, EMC |
Lecture 11 - Crosstalk or near-field coupling - Capacitive coupling, inductive coupling, common-impedance coupling |
| Link |
NOC:Electromagnetic Compatibility, EMC |
Lecture 12 - Crosstalk or near-field coupling - Crosstalk combinations |
| Link |
NOC:Electromagnetic Compatibility, EMC |
Lecture 13 - Crosstalk or near-field coupling - Coupling to shielded cables |
| Link |
NOC:Electromagnetic Compatibility, EMC |
Lecture 14 - Electromagnetic coupling in the far-field |
| Link |
NOC:Electromagnetic Compatibility, EMC |
Lecture 15 - Field Coupling - Exercises |
| Link |
NOC:Electromagnetic Compatibility, EMC |
Lecture 16 - Solutions to EMC problems - Lay out and control of interfaces |
| Link |
NOC:Electromagnetic Compatibility, EMC |
Lecture 17 - Solutions to EMC problems - Grounding or earthing |
| Link |
NOC:Electromagnetic Compatibility, EMC |
Lecture 18 - Solutions to EMC problems - Electromagnetic Shielding |
| Link |
NOC:Electromagnetic Compatibility, EMC |
Lecture 19 - Solutions to EMC problems - Electromagnetic Shielding (Continued...) |
| Link |
NOC:Electromagnetic Compatibility, EMC |
Lecture 20 - Solutions to EMC problems - Shielded cables |
| Link |
NOC:Electromagnetic Compatibility, EMC |
Lecture 21 - Solutions to EMC problems - Filters and Surge protectors |
| Link |
NOC:Electromagnetic Compatibility, EMC |
Lecture 22 - Lightning Protection - Introduction |
| Link |
NOC:Electromagnetic Compatibility, EMC |
Lecture 23 - Lightning protection - Currents, charges and fields |
| Link |
NOC:Electromagnetic Compatibility, EMC |
Lecture 24 - Lightning Protection - Buildings |
| Link |
NOC:Electromagnetic Compatibility, EMC |
Lecture 25 - Lightning Protection - Towers, Lightning safety |
| Link |
NOC:Electromagnetic Compatibility, EMC |
Lecture 26 - EMC Requirements and Standard, Testing and Difficulties - 1 |
| Link |
NOC:Electromagnetic Compatibility, EMC |
Lecture 27 - EMC Requirements and Standard, Testing and Difficulties - 2 |
| Link |
NOC:Electromagnetic Compatibility, EMC |
Lecture 28 - Intentional Electromagnetic Interference or IEMI - 1 |
| Link |
NOC:Electromagnetic Compatibility, EMC |
Lecture 29 - Intentional Electromagnetic Interference or IEMI - 2 |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 1 - Introduction: Objectives and Pre-requisites |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 2 - Review of digital logic |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 3 - Timing and Power in digital circuits |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 4 - Implementation Costs and Metrics |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 5 - Example: Audio processing |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 6 - Example: AlexNet |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 7 - Architecture cost components |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 8 - Examples of Architectures |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 9 - Multi-objective Optimization |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 10 - Number representation |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 11 - Scientific notation and Floating point |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 12 - Basic FIR filter |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 13 - Serial FIR filter architectures |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 14 - Simple programmable architecture |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 15 - Block diagrams and SFGs |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 16 - Dataflow Graphs |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 17 - Iteration period |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 18 - FIR filter iteration period |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 19 - IIR filter iteration period |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 20 - Computation Model |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 21 - Constraint analysis for IPB computation |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 22 - Motivational examples for IPB |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 23 - General IPB computation |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 24 - Sample period calculation |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 25 - Parallel architecture |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 26 - Odd-even register reuse |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 27 - Power consumption |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 28 - Pipelining |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 29 - Pipelining FIL Filter |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 30 - Time-invariant Systems |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 31 - Valid Pipelining Examples |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 32 - Feedforward Cutsets |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 33 - Balanced Pipeline |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 34 - Retiming basic concept |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 35 - Example and uses of retiming |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 36 - Resource sharing: adder example |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 37 - Changing iteration period |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 38 - Hardware assumptions and constraint analysis |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 39 - Mathematical formulation |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 40 - Examples with formulation |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 41 - Example: Biquad filter |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 42 - Hardware architecture |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 43 - Review biquad folding sets |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 44 - Complete biquad hardware |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 45 - DEMO: FFT in Vivado HLS |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 46 - DEMO: FFT synthesis |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 47 - Obtaining a folding schedule |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 48 - ASAP schedule |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 49 - Utilization Efficiency |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 50 - ALAP schedule |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 51 - Iteration period bound and scheduling |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 52 - Retiming for scheduling |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 53 - Blocked schedules |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 54 - Overlapped schedules |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 55 - Improved blocked schedule |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 56 - Allocation, Binding and Scheduling |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 57 - DEMO: Analyze FFT implementation |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 58 - DEMO: FFT interface |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 59 - Scheduling: problem formulation |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 60 - Example: differential equation solver |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 61 - Heuristic approaches to scheduling |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 62 - Mathematical formulation |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 63 - ILP formulation |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 64 - List scheduling |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 65 - Hardware model |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 66 - Force Directed Scheduling |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 67 - DEMO: HLS on FFT |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 68 - DEMO: FFT Simulation and Optimization |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 69 - DEMO: CPU interfacing |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 70 - Software Compilation |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 71 - Optimization Examples |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 72 - Loop optimizations - 1 |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 73 - Loop optimizations - 2 |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 74 - Loop optimizations - 3 |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 75 - Software pipelining - 1 |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 76 - Software pipelining - 2 |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 77 - FFT Optimization |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 78 - Background: CPUs and FPGAs |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 79 - Demo: Vivado setup |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 80 - Demo: Vivado HLS FFT IP Export |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 81 - Demo: Vivado ILA and VIO on hardware |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 82 - Demo: FFT on FPGA board |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 83 - Demo: Simulating SoC and SDK |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 84 - Background: Understanding ELF files |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 85 - On-chip communication basics |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 86 - Many-to-Many communication |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 87 - AXI bus handshaking |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 88 - AXI bus (Continued...) |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 89 - Demo: Microblaze processor on FPGA |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 90 - Demo: Performance counter AXI peripheral |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 91 - Demo: HW accelerator for FPGA |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 92 - DMA and arbitration |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 93 - Network-on-chip basics |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 94 - NoC - Topologies and metrics |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 95 - NoC - Routing |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 96 - NoC - Switching and flow control |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 97 - Systolic Arrays - Background |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 98 - Systolic Arrays - Examples |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 99 - CORDIC algorithm |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 100 - Parallel implementation of FIR filters |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 101 - Unfolding Transformation |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 102 - Lookahead Transformation |
| Link |
NOC:Mapping Signal Processing Algorithms to Architectures |
Lecture 103 - Introduction to GPUs and Matrix multiplication |
| Link |
NOC:Linear System Theory |
Lecture 1 - Introduction to Linear Systems |
| Link |
NOC:Linear System Theory |
Lecture 2 - System Models |
| Link |
NOC:Linear System Theory |
Lecture 3 - System Models - Part 1 |
| Link |
NOC:Linear System Theory |
Lecture 4 - System Models - Part 2 |
| Link |
NOC:Linear System Theory |
Lecture 5 - General Representation |
| Link |
NOC:Linear System Theory |
Lecture 6 - Sets, Functions and Fields |
| Link |
NOC:Linear System Theory |
Lecture 7 - Linear Algebra - Vector Spaces and Metric Spaces |
| Link |
NOC:Linear System Theory |
Lecture 8 - Linear Algebra - Span, Basis and Subspaces |
| Link |
NOC:Linear System Theory |
Lecture 9 - Linear Algebra - Linear Maps and Matrices |
| Link |
NOC:Linear System Theory |
Lecture 10 - Linear Algebra - Fundamental Subspaces and Rank-Nullity |
| Link |
NOC:Linear System Theory |
Lecture 11 - Tutorial 1 on Linear Algebra |
| Link |
NOC:Linear System Theory |
Lecture 12 - Linear Algebra - Change of Basis and Similarity Transformation |
| Link |
NOC:Linear System Theory |
Lecture 13 - Linear Algebra - Invariant Subspaces, Eigen Values and Eigen Vectors |
| Link |
NOC:Linear System Theory |
Lecture 14 - Linear Algebra - Diagonalization and Jordan Forms |
| Link |
NOC:Linear System Theory |
Lecture 15 - Linear Algebra - Eigen Decomposition and Singular Value Decomposition |
| Link |
NOC:Linear System Theory |
Lecture 16 - Tutorial 2 on Linear Algebra |
| Link |
NOC:Linear System Theory |
Lecture 17 - Solutions to LTI Systems |
| Link |
NOC:Linear System Theory |
Lecture 18 - State Transition Matrix for LTI systems |
| Link |
NOC:Linear System Theory |
Lecture 19 - Forced Reponse of Continuous and Discrete LTI system |
| Link |
NOC:Linear System Theory |
Lecture 20 - State Transition Matrix and Solutions to LTV systems |
| Link |
NOC:Linear System Theory |
Lecture 21 - Equilibrium Points |
| Link |
NOC:Linear System Theory |
Lecture 22 - Limit Cycles and Linearisation |
| Link |
NOC:Linear System Theory |
Lecture 23 - Stability Analysis and Types of Stability |
| Link |
NOC:Linear System Theory |
Lecture 24 - Lyapunov Stability |
| Link |
NOC:Linear System Theory |
Lecture 25 - Stability of Discrete Time Systems |
| Link |
NOC:Linear System Theory |
Lecture 26 - Supplementary Lecture: Comparison Lemma and Lyapunov Stabilty |
| Link |
NOC:Linear System Theory |
Lecture 27 - Controllability and Reachability |
| Link |
NOC:Linear System Theory |
Lecture 28 - Controllability Matrix and Controllable Systems |
| Link |
NOC:Linear System Theory |
Lecture 29 - Controllability Tests |
| Link |
NOC:Linear System Theory |
Lecture 30 - Controllability of Discrete Time Systems |
| Link |
NOC:Linear System Theory |
Lecture 31 - Controllable Decomposition |
| Link |
NOC:Linear System Theory |
Lecture 32 - Stabilizability |
| Link |
NOC:Linear System Theory |
Lecture 33 - Observability |
| Link |
NOC:Linear System Theory |
Lecture 34 - Gramians and Duality |
| Link |
NOC:Linear System Theory |
Lecture 35 - Observability for Discrete Time Systems and Observability Tests |
| Link |
NOC:Linear System Theory |
Lecture 36 - Observable Decompositon and Detectability |
| Link |
NOC:Linear System Theory |
Lecture 37 - Kalman Decomposition and Minimal Realisation |
| Link |
NOC:Linear System Theory |
Lecture 38 - Canonical Forms and State Feedback Control |
| Link |
NOC:Linear System Theory |
Lecture 39 - Control Design using Pole Placement |
| Link |
NOC:Linear System Theory |
Lecture 40 - Tutorial for Modules 9 and 10 |
| Link |
NOC:Linear System Theory |
Lecture 41 - State Estimation and Output Feedback |
| Link |
NOC:Linear System Theory |
Lecture 42 - Design of Observer and Observer based Controller |
| Link |
NOC:Linear System Theory |
Lecture 43 - Optimal Control and Linear Quadratic Regulator (LQR) |
| Link |
NOC:Linear System Theory |
Lecture 44 - Feedback Invariant and Algebraic Ricatti Equation |
| Link |
NOC:Linear System Theory |
Lecture 45 - Tutorial for Module 11 |
| Link |
NOC:Linear System Theory |
Lecture 46 - Linear Matrix Inequalities |
| Link |
NOC:Linear System Theory |
Lecture 47 - Properties of LMIs and Delay LMIs |
| Link |
NOC:Digital Signal Processing |
Lecture 1 - Signal Definition and Classification |
| Link |
NOC:Digital Signal Processing |
Lecture 2 - Affine Transform |
| Link |
NOC:Digital Signal Processing |
Lecture 3 - Recap of Affine Transform |
| Link |
NOC:Digital Signal Processing |
Lecture 4 - Even and Odd Parts of a Signal |
| Link |
NOC:Digital Signal Processing |
Lecture 5 - The Unit Step Sequence |
| Link |
NOC:Digital Signal Processing |
Lecture 6 - The Unit Impulse |
| Link |
NOC:Digital Signal Processing |
Lecture 7 - The Unit Impulse (Continued...) |
| Link |
NOC:Digital Signal Processing |
Lecture 8 - Exponential Signals and Sinusoids |
| Link |
NOC:Digital Signal Processing |
Lecture 9 - Sinusoids (Continued...) |
| Link |
NOC:Digital Signal Processing |
Lecture 10 - When are two sinusoids independent? |
| Link |
NOC:Digital Signal Processing |
Lecture 11 - Another Difference Between CT and DT Sinusoids |
| Link |
NOC:Digital Signal Processing |
Lecture 12 - System definition and properties (linearity) |
| Link |
NOC:Digital Signal Processing |
Lecture 13 - Time-invariance, memory, causality, and stability |
| Link |
NOC:Digital Signal Processing |
Lecture 14 - LTI systems, impulse response, and convolution |
| Link |
NOC:Digital Signal Processing |
Lecture 15 - Properties of convolution, system interconnections |
| Link |
NOC:Digital Signal Processing |
Lecture 16 - Java applet demo of convolution |
| Link |
NOC:Digital Signal Processing |
Lecture 17 - Systems governed by LCCDE |
| Link |
NOC:Digital Signal Processing |
Lecture 18 - FIR and IIR systems |
| Link |
NOC:Digital Signal Processing |
Lecture 19 - Karplus-Strong algorithm |
| Link |
NOC:Digital Signal Processing |
Lecture 20 - Z-transform definition and RoC |
| Link |
NOC:Digital Signal Processing |
Lecture 21 - Z-transform (Continued...) |
| Link |
NOC:Digital Signal Processing |
Lecture 22 - Poles and zeros |
| Link |
NOC:Digital Signal Processing |
Lecture 23 - Recursive implementation of FIR filters |
| Link |
NOC:Digital Signal Processing |
Lecture 24 - Convergence criterion |
| Link |
NOC:Digital Signal Processing |
Lecture 25 - Properties of the RoC |
| Link |
NOC:Digital Signal Processing |
Lecture 26 - DTFT definition and absolute summability |
| Link |
NOC:Digital Signal Processing |
Lecture 27 - Linearity |
| Link |
NOC:Digital Signal Processing |
Lecture 28 - Delay |
| Link |
NOC:Digital Signal Processing |
Lecture 29 - Exponential multiplication |
| Link |
NOC:Digital Signal Processing |
Lecture 30 - Complex conjugation |
| Link |
NOC:Digital Signal Processing |
Lecture 31 - Time reversal |
| Link |
NOC:Digital Signal Processing |
Lecture 32 - Differentiation in the Z-domain |
| Link |
NOC:Digital Signal Processing |
Lecture 33 - Convolution in the time domain |
| Link |
NOC:Digital Signal Processing |
Lecture 34 - Relationship between x[n] and X(1) |
| Link |
NOC:Digital Signal Processing |
Lecture 35 - Initial Value Theorem |
| Link |
NOC:Digital Signal Processing |
Lecture 36 - Final Value Theorem |
| Link |
NOC:Digital Signal Processing |
Lecture 37 - Multiplication in the time domain |
| Link |
NOC:Digital Signal Processing |
Lecture 38 - Parseval's Theorem |
| Link |
NOC:Digital Signal Processing |
Lecture 39 - Partial Fractions Method |
| Link |
NOC:Digital Signal Processing |
Lecture 40 - Power series method |
| Link |
NOC:Digital Signal Processing |
Lecture 41 - Contour Integral Method |
| Link |
NOC:Digital Signal Processing |
Lecture 42 - Contour Integral Method (Continued...) |
| Link |
NOC:Digital Signal Processing |
Lecture 43 - Inverse DTFT |
| Link |
NOC:Digital Signal Processing |
Lecture 44 - DTFT of Sequences that are not absolutely summable |
| Link |
NOC:Digital Signal Processing |
Lecture 45 - Response to cos(?_0 n+?) |
| Link |
NOC:Digital Signal Processing |
Lecture 46 - Causality and Stability |
| Link |
NOC:Digital Signal Processing |
Lecture 47 - Response to suddenly applied inputs |
| Link |
NOC:Digital Signal Processing |
Lecture 48 - Introduction to frequency response |
| Link |
NOC:Digital Signal Processing |
Lecture 49 - Magnitude response and its geometric interpretation |
| Link |
NOC:Digital Signal Processing |
Lecture 50 - Magnitude Response (Continued...) |
| Link |
NOC:Digital Signal Processing |
Lecture 51 - Response of a single complex zero/pole |
| Link |
NOC:Digital Signal Processing |
Lecture 52 - Resonator and Improved Resonator |
| Link |
NOC:Digital Signal Processing |
Lecture 53 - Notch filter |
| Link |
NOC:Digital Signal Processing |
Lecture 54 - Moving Average Filter |
| Link |
NOC:Digital Signal Processing |
Lecture 55 - Comb filter |
| Link |
NOC:Digital Signal Processing |
Lecture 56 - Phase response of a single complex zero |
| Link |
NOC:Digital Signal Processing |
Lecture 57 - Effect of crossing a unit circle zero, wrapped and unwrapped phase, resonator phase response |
| Link |
NOC:Digital Signal Processing |
Lecture 58 - Allpass Filter |
| Link |
NOC:Digital Signal Processing |
Lecture 59 - Group delay and its physical interpretation |
| Link |
NOC:Digital Signal Processing |
Lecture 60 - Zero-phase filtering, effect on nonlinear phase on waveshape |
| Link |
NOC:Digital Signal Processing |
Lecture 61 - Zero-Phase Filtering, Linear Phase - 1 |
| Link |
NOC:Digital Signal Processing |
Lecture 62 - Linear Phase - 2 |
| Link |
NOC:Digital Signal Processing |
Lecture 63 - Linear Phase - 3 |
| Link |
NOC:Digital Signal Processing |
Lecture 64 - Linear Phase - 3 |
| Link |
NOC:Digital Signal Processing |
Lecture 65 - Linear Phase - 3 |
| Link |
NOC:Digital Signal Processing |
Lecture 66 - Linear Phase - 4, Sampling - 1 |
| Link |
NOC:Digital Signal Processing |
Lecture 67 - Linear Phase - 4, Sampling - 1 |
| Link |
NOC:Digital Signal Processing |
Lecture 68 - Linear Phase - 4, Sampling - 1 |
| Link |
NOC:Digital Signal Processing |
Lecture 69 - Sampling - 2 |
| Link |
NOC:Digital Signal Processing |
Lecture 70 - Sampling - 3 |
| Link |
NOC:Digital Signal Processing |
Lecture 71 - Sampling - 4 |
| Link |
NOC:Digital Signal Processing |
Lecture 72 - Sampling - 4 |
| Link |
NOC:Digital Signal Processing |
Lecture 73 - Sampling - 4 |
| Link |
NOC:Digital Signal Processing |
Lecture 74 - The Discrete Fourier Transform - 1 |
| Link |
NOC:Digital Signal Processing |
Lecture 75 - The Discrete Fourier Transform - 1 |
| Link |
NOC:Digital Signal Processing |
Lecture 76 - The Discrete Fourier Transform - 2 |
| Link |
NOC:Digital Signal Processing |
Lecture 77 - The Discrete Fourier Transform - 3 |
| Link |
NOC:Digital Signal Processing |
Lecture 78 - The Discrete Fourier Transform - 3 |
| Link |
NOC:Digital Signal Processing |
Lecture 79 - The Discrete Fourier Transform - 3 |
| Link |
NOC:Digital Signal Processing |
Lecture 80 - The Discrete Fourier Transform - 4 |
| Link |
NOC:Digital Signal Processing |
Lecture 81 - The Discrete Fourier Transform - 4 |
| Link |
NOC:Digital Signal Processing |
Lecture 82 - The Discrete Fourier Transform - 4 |
| Link |
NOC:Computational Electromagnetics |
Lecture 1 - Chain rule of differentiation |
| Link |
NOC:Computational Electromagnetics |
Lecture 2 - Gradient, Divergence, and Curl operators |
| Link |
NOC:Computational Electromagnetics |
Lecture 3 - Common theorems in vector calculus |
| Link |
NOC:Computational Electromagnetics |
Lecture 4 - Corollaries of these theorems |
| Link |
NOC:Computational Electromagnetics |
Lecture 5 - Mathematical History |
| Link |
NOC:Computational Electromagnetics |
Lecture 6 - Different regimes of Maxwell's equations |
| Link |
NOC:Computational Electromagnetics |
Lecture 7 - Different ways of solving them |
| Link |
NOC:Computational Electromagnetics |
Lecture 8 - Maxwell's Equations |
| Link |
NOC:Computational Electromagnetics |
Lecture 9 - Boundary Conditions |
| Link |
NOC:Computational Electromagnetics |
Lecture 10 - Uniqueness Theorem |
| Link |
NOC:Computational Electromagnetics |
Lecture 11 - Equivalence Theorem |
| Link |
NOC:Computational Electromagnetics |
Lecture 12 - Simple Numerical Integration |
| Link |
NOC:Computational Electromagnetics |
Lecture 13 - Interpolating a Function |
| Link |
NOC:Computational Electromagnetics |
Lecture 14 - Gauss Quadrature |
| Link |
NOC:Computational Electromagnetics |
Lecture 15 - Line Charge Problem |
| Link |
NOC:Computational Electromagnetics |
Lecture 16 - Solving the Integral Equation |
| Link |
NOC:Computational Electromagnetics |
Lecture 17 - Basis Functions |
| Link |
NOC:Computational Electromagnetics |
Lecture 18 - Helmholtz Equation |
| Link |
NOC:Computational Electromagnetics |
Lecture 19 - Solving Helmholtz Equation |
| Link |
NOC:Computational Electromagnetics |
Lecture 20 - Huygen's principle and the Extinction theorem |
| Link |
NOC:Computational Electromagnetics |
Lecture 21 - Formulating the integral equations |
| Link |
NOC:Computational Electromagnetics |
Lecture 22 - Conclusions of surface integral equations |
| Link |
NOC:Computational Electromagnetics |
Lecture 23 - Motivations for Green's functions |
| Link |
NOC:Computational Electromagnetics |
Lecture 24 - A one-dimensional example |
| Link |
NOC:Computational Electromagnetics |
Lecture 25 - 1-D example: alternate representation |
| Link |
NOC:Computational Electromagnetics |
Lecture 26 - 2-D wave example : finding solution |
| Link |
NOC:Computational Electromagnetics |
Lecture 27 - 2-D wave example : boundary conds |
| Link |
NOC:Computational Electromagnetics |
Lecture 28 - 2-D example : Evaluating Constants - Part 1 |
| Link |
NOC:Computational Electromagnetics |
Lecture 29 - 2-D example : Evaluating Constants - Part 2 |
| Link |
NOC:Computational Electromagnetics |
Lecture 30 - 3-D example |
| Link |
NOC:Computational Electromagnetics |
Lecture 31 - Motivation for MoM |
| Link |
NOC:Computational Electromagnetics |
Lecture 32 - Linear Vector Spaces |
| Link |
NOC:Computational Electromagnetics |
Lecture 33 - Formulating Method of Moments |
| Link |
NOC:Computational Electromagnetics |
Lecture 34 - Surface Integral Equations: Recap |
| Link |
NOC:Computational Electromagnetics |
Lecture 35 - Surface Integral Equations: Evaluating the Integrals - Part 1 |
| Link |
NOC:Computational Electromagnetics |
Lecture 36 - Surface Integral Equations: Evaluating the Integrals - Part 2 |
| Link |
NOC:Computational Electromagnetics |
Lecture 37 - Surface Integral Equations: Conclusion |
| Link |
NOC:Computational Electromagnetics |
Lecture 38 - Volume Integral Equations:Setting Up |
| Link |
NOC:Computational Electromagnetics |
Lecture 39 - Volume Integral Equations:Solving - Part 1 |
| Link |
NOC:Computational Electromagnetics |
Lecture 40 - Volume Integral Equations:Solving - Part 2 |
| Link |
NOC:Computational Electromagnetics |
Lecture 41 - Volume Integral Equations:Summary |
| Link |
NOC:Computational Electromagnetics |
Lecture 42 - Surface integral equations for PEC |
| Link |
NOC:Computational Electromagnetics |
Lecture 43 - Surface v/s volume integral equations |
| Link |
NOC:Computational Electromagnetics |
Lecture 44 - Definition of radar cross-section |
| Link |
NOC:Computational Electromagnetics |
Lecture 45 - Computational Considerations |
| Link |
NOC:Computational Electromagnetics |
Lecture 46 - History and Overview of the FEM |
| Link |
NOC:Computational Electromagnetics |
Lecture 47 - Basic framework of FEM |
| Link |
NOC:Computational Electromagnetics |
Lecture 48 - 1D Basis Functions |
| Link |
NOC:Computational Electromagnetics |
Lecture 49 - 2D Basis Functions |
| Link |
NOC:Computational Electromagnetics |
Lecture 50 - Weak form of 1D-FEM - Part 1 |
| Link |
NOC:Computational Electromagnetics |
Lecture 51 - Weak form of 1D-FEM - Part 2 |
| Link |
NOC:Computational Electromagnetics |
Lecture 52 - Generating System of Equations for 1D FEM |
| Link |
NOC:Computational Electromagnetics |
Lecture 53 - 1D wave equation: Formulation |
| Link |
NOC:Computational Electromagnetics |
Lecture 54 - 1D Wave Equation: Boundary Conditions |
| Link |
NOC:Computational Electromagnetics |
Lecture 55 - 1D Wave Equation: Basis and testing functions |
| Link |
NOC:Computational Electromagnetics |
Lecture 56 - 1D Wave Equation: Matrix assembly |
| Link |
NOC:Computational Electromagnetics |
Lecture 57 - 2D FEM Shape Functions |
| Link |
NOC:Computational Electromagnetics |
Lecture 58 - Converting to Weak Form (2D FEM) |
| Link |
NOC:Computational Electromagnetics |
Lecture 59 - Radiation Boundary Condition |
| Link |
NOC:Computational Electromagnetics |
Lecture 60 - Total field formulation |
| Link |
NOC:Computational Electromagnetics |
Lecture 61 - Scattered field formulation |
| Link |
NOC:Computational Electromagnetics |
Lecture 62 - Comparing total and scattered field formulation |
| Link |
NOC:Computational Electromagnetics |
Lecture 63 - Matrix assembly - Part 1 |
| Link |
NOC:Computational Electromagnetics |
Lecture 64 - Matrix assembly - Part 2 |
| Link |
NOC:Computational Electromagnetics |
Lecture 65 - Computing Far Field |
| Link |
NOC:Computational Electromagnetics |
Lecture 66 - Numerical Aspects of 2D FEM |
| Link |
NOC:Computational Electromagnetics |
Lecture 67 - Summary of FEM Procedure |
| Link |
NOC:Computational Electromagnetics |
Lecture 68 - Introduction to FDTD |
| Link |
NOC:Computational Electromagnetics |
Lecture 69 - 2D FDTD Formulation : Stencil |
| Link |
NOC:Computational Electromagnetics |
Lecture 70 - 2D FDTD Formulation : Time Stepping |
| Link |
NOC:Computational Electromagnetics |
Lecture 71 - 2D FDTD Formulation : Divergence Conditions |
| Link |
NOC:Computational Electromagnetics |
Lecture 72 - Stability Criteria - Part 1 |
| Link |
NOC:Computational Electromagnetics |
Lecture 73 - Stability Criteria - Part 2 |
| Link |
NOC:Computational Electromagnetics |
Lecture 74 - Stability Criteria - Higher Dimensions |
| Link |
NOC:Computational Electromagnetics |
Lecture 75 - Accuracy Considerations - 1D |
| Link |
NOC:Computational Electromagnetics |
Lecture 76 - Accuracy Considerations - Higher Dimensions |
| Link |
NOC:Computational Electromagnetics |
Lecture 77 - Dealing with non-dispersive dielectric media |
| Link |
NOC:Computational Electromagnetics |
Lecture 78 - Dealing with dispersive dielectric media |
| Link |
NOC:Computational Electromagnetics |
Lecture 79 - Debye Model - Part 1 |
| Link |
NOC:Computational Electromagnetics |
Lecture 80 - Debye Model - Part 2 |
| Link |
NOC:Computational Electromagnetics |
Lecture 81 - Absorbing Boundary Conditions - 1D |
| Link |
NOC:Computational Electromagnetics |
Lecture 82 - Absorbing Boundary Conditions - 2D |
| Link |
NOC:Computational Electromagnetics |
Lecture 83 - Implementing ABC in FDTD |
| Link |
NOC:Computational Electromagnetics |
Lecture 84 - Failure of ABC |
| Link |
NOC:Computational Electromagnetics |
Lecture 85 - Perfectly Matched Layers (PML) - Introduction |
| Link |
NOC:Computational Electromagnetics |
Lecture 86 - Implementing PML using Coordinate Stretching |
| Link |
NOC:Computational Electromagnetics |
Lecture 87 - PML - Phase Matching |
| Link |
NOC:Computational Electromagnetics |
Lecture 88 - PML - Tangential Boundary Conditions |
| Link |
NOC:Computational Electromagnetics |
Lecture 89 - Perfectly Matched Interface |
| Link |
NOC:Computational Electromagnetics |
Lecture 90 - PML theory - Summary |
| Link |
NOC:Computational Electromagnetics |
Lecture 91 - Implementing PML into FDTD - Part 1 |
| Link |
NOC:Computational Electromagnetics |
Lecture 92 - Implementing PML into FDTD - Part 2 |
| Link |
NOC:Computational Electromagnetics |
Lecture 93 - Sources in FDTD - Currents |
| Link |
NOC:Computational Electromagnetics |
Lecture 94 - Sources in FDTD - Part 2 |
| Link |
NOC:Computational Electromagnetics |
Lecture 95 - Summary of FDTD |
| Link |
NOC:Computational Electromagnetics |
Lecture 96 - MEEP : FDTD in action |
| Link |
NOC:Computational Electromagnetics |
Lecture 97 - Inverse Problems - Introduction |
| Link |
NOC:Computational Electromagnetics |
Lecture 98 - Inverse Problems - Mathematical Formulation |
| Link |
NOC:Computational Electromagnetics |
Lecture 99 - Inverse Problems - Challenges |
| Link |
NOC:Computational Electromagnetics |
Lecture 100 - Inverse Problems - Non-Linearity |
| Link |
NOC:Computational Electromagnetics |
Lecture 101 - Inverse Problems - Summary |
| Link |
NOC:Computational Electromagnetics |
Lecture 102 - Antennas - Potential formulation |
| Link |
NOC:Computational Electromagnetics |
Lecture 103 - Antennas - Hertz Dipole - Part 1 |
| Link |
NOC:Computational Electromagnetics |
Lecture 104 - Antennas - Hertz Dipole - Part 2 |
| Link |
NOC:Computational Electromagnetics |
Lecture 105 - Antennas - Radiation Patterns |
| Link |
NOC:Computational Electromagnetics |
Lecture 106 - Antennas - Motivation for CEM |
| Link |
NOC:Computational Electromagnetics |
Lecture 107 - Antennas - Pocklington’s Integral Equation - Part 1 |
| Link |
NOC:Computational Electromagnetics |
Lecture 108 - Antennas - Pocklington’s Integral Equation - Part 2 |
| Link |
NOC:Computational Electromagnetics |
Lecture 109 - Antennas - Source Modeling |
| Link |
NOC:Computational Electromagnetics |
Lecture 110 - Antennas - Circuit Model |
| Link |
NOC:Computational Electromagnetics |
Lecture 111 - Antennas - MoM details |
| Link |
NOC:Computational Electromagnetics |
Lecture 112 - Antennas - Mutual Coupling - Part 1 |
| Link |
NOC:Computational Electromagnetics |
Lecture 113 - Antennas - Mutual Coupling - Part 2 |
| Link |
NOC:Computational Electromagnetics |
Lecture 114 - Hybrid Methods - Motivation |
| Link |
NOC:Computational Electromagnetics |
Lecture 115 - Finite Element-Boundary Integral - Part 1 |
| Link |
NOC:Computational Electromagnetics |
Lecture 116 - Finite Element-Boundary Integral - Part 2 |
| Link |
NOC:Computational Electromagnetics |
Lecture 117 - Finite Element-Boundary Integral - Part 3 |
| Link |
NOC:Transmission Lines and Electromagnetic Waves |
Lecture 1 - Transmission lines |
| Link |
NOC:Transmission Lines and Electromagnetic Waves |
Lecture 2 - LosslessTransmission lines: Wave Equations |
| Link |
NOC:Transmission Lines and Electromagnetic Waves |
Lecture 3 - Introduction to finite difference method |
| Link |
NOC:Transmission Lines and Electromagnetic Waves |
Lecture 4 - Octave simulation of wave equation |
| Link |
NOC:Transmission Lines and Electromagnetic Waves |
Lecture 5 - Octave simulation of Telegrapher's equation |
| Link |
NOC:Transmission Lines and Electromagnetic Waves |
Lecture 6 - Reflections and reflection coefficient |
| Link |
NOC:Transmission Lines and Electromagnetic Waves |
Lecture 7 - AC signals in loss-less transmission lines |
| Link |
NOC:Transmission Lines and Electromagnetic Waves |
Lecture 8 - Transmission lines with losses |
| Link |
NOC:Transmission Lines and Electromagnetic Waves |
Lecture 9 - Octave simulation of Transmission lines with losses |
| Link |
NOC:Transmission Lines and Electromagnetic Waves |
Lecture 10 - Voltage reflection coefficient and standing wave ratio |
| Link |
NOC:Transmission Lines and Electromagnetic Waves |
Lecture 11 - Graphical representation of reflection coefficient |
| Link |
NOC:Transmission Lines and Electromagnetic Waves |
Lecture 12 - Impedance matching using Smith chart |
| Link |
NOC:Transmission Lines and Electromagnetic Waves |
Lecture 13 - Demonstration of Impedance matching using VNA |
| Link |
NOC:Transmission Lines and Electromagnetic Waves |
Lecture 14 - Transmission Line Limitations and Maxwell's Equation |
| Link |
NOC:Transmission Lines and Electromagnetic Waves |
Lecture 15 - Maxwell's Curl Equation |
| Link |
NOC:Transmission Lines and Electromagnetic Waves |
Lecture 16 - Octave simulation of an Electromagnetic Wave Equation |
| Link |
NOC:Transmission Lines and Electromagnetic Waves |
Lecture 17 - Polarisation of an Electromagnetic Wave |
| Link |
NOC:Transmission Lines and Electromagnetic Waves |
Lecture 18 - Octave Simulation of different types of Polarisation |
| Link |
NOC:Transmission Lines and Electromagnetic Waves |
Lecture 19 - Electromagnetic Waves in a conductive Medium |
| Link |
NOC:Transmission Lines and Electromagnetic Waves |
Lecture 20 - Plane Waves |
| Link |
NOC:Transmission Lines and Electromagnetic Waves |
Lecture 21 - Plane Waves at normal incidence |
| Link |
NOC:Transmission Lines and Electromagnetic Waves |
Lecture 22 - Plane waves at Oblique Incidence - I |
| Link |
NOC:Transmission Lines and Electromagnetic Waves |
Lecture 23 - Plane waves at Oblique Incidence - II |
| Link |
NOC:Transmission Lines and Electromagnetic Waves |
Lecture 24 - Plane waves at Oblique Incidence - III |
| Link |
NOC:Transmission Lines and Electromagnetic Waves |
Lecture 25 - Octave simulation of perpendicular polarisation |
| Link |
NOC:Transmission Lines and Electromagnetic Waves |
Lecture 26 - Octave simulation of perpendicular polarisation (Continued...) |
| Link |
NOC:Transmission Lines and Electromagnetic Waves |
Lecture 27 - Dielectric-ideal conductor interface |
| Link |
NOC:Transmission Lines and Electromagnetic Waves |
Lecture 28 - Parallel plate waveguide |
| Link |
NOC:Transmission Lines and Electromagnetic Waves |
Lecture 29 - Rectangular Waveguide |
| Link |
NOC:Transmission Lines and Electromagnetic Waves |
Lecture 30 - Octave simulation of modes of a Rectangular Waveguide |
| Link |
NOC:Transmission Lines and Electromagnetic Waves |
Lecture 31 - Phase Velocity and Group velocity |
| Link |
NOC:Transmission Lines and Electromagnetic Waves |
Lecture 32 - Octave simulation of Field pattern of a parellel plate waveguide |
| Link |
NOC:Transmission Lines and Electromagnetic Waves |
Lecture 33 - Cavity resonatorand Real life applications of waveguides and cavity |
| Link |
NOC:Digital IC Design |
Lecture 1 - Introduction - Digital IC Design |
| Link |
NOC:Digital IC Design |
Lecture 2 - PN Junction |
| Link |
NOC:Digital IC Design |
Lecture 3 - MOS Capacitor Threshold Voltage |
| Link |
NOC:Digital IC Design |
Lecture 4 - MOS Transistor Current Expression |
| Link |
NOC:Digital IC Design |
Lecture 5 - Body Effect and I-V Plots |
| Link |
NOC:Digital IC Design |
Lecture 6 - Short Channel Transistors - Channel Length Modulation |
| Link |
NOC:Digital IC Design |
Lecture 7 - Velocity Saturation and Level-1 SPICE Model |
| Link |
NOC:Digital IC Design |
Lecture 8 - Drain Induced Barrier Lowering |
| Link |
NOC:Digital IC Design |
Lecture 9 - Sub-Threshold Leakage |
| Link |
NOC:Digital IC Design |
Lecture 10 - Substrate and Gate Leakage |
| Link |
NOC:Digital IC Design |
Lecture 11 - The PMOS Transistor |
| Link |
NOC:Digital IC Design |
Lecture 12 - Transistor Capacitance - 1 |
| Link |
NOC:Digital IC Design |
Lecture 13 - Transistor Capacitance - 2 |
| Link |
NOC:Digital IC Design |
Lecture 14 - CMOS Inverter Construction |
| Link |
NOC:Digital IC Design |
Lecture 15 - Voltage Transfer Characteristics |
| Link |
NOC:Digital IC Design |
Lecture 16 - Load Line Analysis |
| Link |
NOC:Digital IC Design |
Lecture 17 - Trip Point for Short Channel Device Inverter |
| Link |
NOC:Digital IC Design |
Lecture 18 - Trip Point for Long Channel Device Inverter |
| Link |
NOC:Digital IC Design |
Lecture 19 - Noise Margin Analysis - 1 |
| Link |
NOC:Digital IC Design |
Lecture 20 - Noise Margin Analysis - 2 |
| Link |
NOC:Digital IC Design |
Lecture 21 - Noise Margin Analysis - 3 |
| Link |
NOC:Digital IC Design |
Lecture 22 - Noise Margin Analysis-Long Channel Device Inverter - 1 |
| Link |
NOC:Digital IC Design |
Lecture 23 - Noise Margin Analysis-Long Channel Device Inverter - 2 |
| Link |
NOC:Digital IC Design |
Lecture 24 - Pass Transistors |
| Link |
NOC:Digital IC Design |
Lecture 25 - NMOS Transistor ON Resistance and Fall Delay |
| Link |
NOC:Digital IC Design |
Lecture 26 - Elmore Delay Model |
| Link |
NOC:Digital IC Design |
Lecture 27 - Inverter: Transient Response |
| Link |
NOC:Digital IC Design |
Lecture 28 - Inverter: Dynamic Power |
| Link |
NOC:Digital IC Design |
Lecture 29 - Inverter: Short Circuit Power |
| Link |
NOC:Digital IC Design |
Lecture 30 - Inverter: Leakage Power and Transistor Stacks |
| Link |
NOC:Digital IC Design |
Lecture 31 - Stacking Effect and Sleep Transistors |
| Link |
NOC:Digital IC Design |
Lecture 32 - Ring Oscillators and Process Variations |
| Link |
NOC:Digital IC Design |
Lecture 33 - Implementing Any Boolean Logic Function |
| Link |
NOC:Digital IC Design |
Lecture 34 - Implementing Any Boolean Logic Function: Examples. Gate sizing |
| Link |
NOC:Digital IC Design |
Lecture 35 - Gate Sizing |
| Link |
NOC:Digital IC Design |
Lecture 36 - Logic Gate Capacitance |
| Link |
NOC:Digital IC Design |
Lecture 37 - Gate Delay |
| Link |
NOC:Digital IC Design |
Lecture 38 - Parasitic Delay |
| Link |
NOC:Digital IC Design |
Lecture 39 - Gate Delay with a Load Capacitance |
| Link |
NOC:Digital IC Design |
Lecture 40 - Logical Effort |
| Link |
NOC:Digital IC Design |
Lecture 41 - Gate Delay |
| Link |
NOC:Digital IC Design |
Lecture 42 - Path Delay Calculation and Optimization Formulation |
| Link |
NOC:Digital IC Design |
Lecture 43 - Path Delay Optimization: Intuition |
| Link |
NOC:Digital IC Design |
Lecture 44 - Path Delay Optimization: Example |
| Link |
NOC:Digital IC Design |
Lecture 45 - Buffer Insertion |
| Link |
NOC:Digital IC Design |
Lecture 46 - Input Ordering and Asymmetric Gates |
| Link |
NOC:Digital IC Design |
Lecture 47 - Skewed Gates |
| Link |
NOC:Digital IC Design |
Lecture 48 - Special Functions |
| Link |
NOC:Digital IC Design |
Lecture 49 - Pseudo NMOS Logic |
| Link |
NOC:Digital IC Design |
Lecture 50 - Pseudo NMOS Inverter |
| Link |
NOC:Digital IC Design |
Lecture 51 - Pseudo NMOS Logical Effort and CVSL |
| Link |
NOC:Digital IC Design |
Lecture 52 - Dynamic Circuits and Input Monotonicity |
| Link |
NOC:Digital IC Design |
Lecture 53 - Domino Logic and Weak Keepers |
| Link |
NOC:Digital IC Design |
Lecture 54 - Transmission Gate Logic |
| Link |
NOC:Digital IC Design |
Lecture 55 - Gate Sizing for Large Circuits |
| Link |
NOC:Digital IC Design |
Lecture 56 - Ripple Adder Introduction |
| Link |
NOC:Digital IC Design |
Lecture 57 - Full Adder Circuit Implementation |
| Link |
NOC:Digital IC Design |
Lecture 58 - Full Adder Optimization |
| Link |
NOC:Digital IC Design |
Lecture 59 - Carry Skip Adder |
| Link |
NOC:Digital IC Design |
Lecture 60 - Carry Select Adder |
| Link |
NOC:Digital IC Design |
Lecture 61 - Linear and Square Root Carry Select Adder |
| Link |
NOC:Digital IC Design |
Lecture 62 - Two's Complement Arithmetic |
| Link |
NOC:Digital IC Design |
Lecture 63 - Two's Complement Sign Extension |
| Link |
NOC:Digital IC Design |
Lecture 64 - Array Multiplier |
| Link |
NOC:Digital IC Design |
Lecture 65 - Array Multiplier - Timing Analysis |
| Link |
NOC:Digital IC Design |
Lecture 66 - Carry Save Multiplier |
| Link |
NOC:Digital IC Design |
Lecture 67 - Carry Save Multiplier - Signed Multiplication |
| Link |
NOC:Digital IC Design |
Lecture 68 - Introduction to Pipelining |
| Link |
NOC:Digital IC Design |
Lecture 69 - Time Borrowing |
| Link |
NOC:Digital IC Design |
Lecture 70 - Master Slave Flip Flop |
| Link |
NOC:Digital IC Design |
Lecture 71 - Flop Timing Parameters |
| Link |
NOC:Digital IC Design |
Lecture 72 - Alternate Circuit Implementations |
| Link |
NOC:Digital IC Design |
Lecture 73 - Clock Overlap |
| Link |
NOC:Digital IC Design |
Lecture 74 - C2MOS Flop |
| Link |
NOC:Digital IC Design |
Lecture 75 - Flop Characterization |
| Link |
NOC:Digital IC Design |
Lecture 76 - Max and Min Delay of Flop Based Systems |
| Link |
NOC:Digital IC Design |
Lecture 77 - Flop Min Delay Constraint |
| Link |
NOC:Digital IC Design |
Lecture 78 - Latch - Max and Min Delay Constraints |
| Link |
NOC:Digital IC Design |
Lecture 79 - Latch - Timing Analysis with Skew |
| Link |
NOC:Digital IC Design |
Lecture 80 - Time Borrowing |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 1 - Introduction to PMIC - Part 1 |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 2 - Introduction to PMIC - Part 2 |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 3 - Linear versus Switching Regulators |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 4 - Performance Parameters of Regulators |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 5 - Local vs Remote Feedback, Point of Load Regulators |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 6 - Kelvin Sensing, Droop Compensation |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 7 - Current Regulator Applications, Introduction to Bandgap Voltage References, PTAT and CTAT voltage |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 8 - Adding PTAT and CTAT Voltages |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 9 - Bandgap Voltage Reference Circuit, Brokaw Bandgap Circuit |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 10 - Sub-1-volt Bandgap Circuit |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 11 - Generating Multiple Reference Voltages; Applications of Linear Regulators |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 12 - Designing a Linear Regulator, Negative and Positive Feedback |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 13 - First-Order Systems, Phase Margin |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 14 - Closed-Loop Response of Second-Order Systems |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 15 - Relationship between Damping Factor and Phase Margin, Frequency Compensation, MOS Parasitic Capacitances |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 16 - Finding the Poles of the Error Amplifier - Part 1 |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 17 - Finding the Poles of the Error Amplifier - Part 2 |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 18 - Dominant Pole Frequency Compensation |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 19 - Dominant Pole Compensation at No-Load |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 20 - Dominant Pole Compensation using Miller Effect, RHP zero due to Miller Capacitor |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 21 - Intuitive Method of Finding the Poles, Pole Splitting after Miller Compensation |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 22 - Effect of RHP zero on Stability, Mitigating the Effect of RHP zero, LDO with NMOS Pass Element |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 23 - Output Impedance of PMOS LDO |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 24 - Line Regulation and PSRR of PMOS LDO |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 25 - PSRR of PMOS versus PSRR of NMOS LDO |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 26 - Sources of Error in Linear and Switching Regulators |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 27 - Offset in Amplifiers; Real Life Analogy; Static Offset Cancellation |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 28 - Dynamic Offset Cancellation Techniques (Chopping, Auto-zeroing) |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 29 - Digital LDO, Technique to Avoid Limit Cycle Oscillations in Digital LDO |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 30 - Hybrid LDO, Short-Circuit Protection |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 31 - Hiccup Mode and Foldback Current Limit |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 32 - Introduction to Switching Regulators |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 33 - volt-second Balance, Non-Idealities in the Power Stage of a Buck Converter |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 34 - Transformer Model of a Buck Converter, Conduction Efficiency, Efficiency of an LDO versus Efficiency of a Switching Regulator |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 35 - Synchronous versus Non-Synchronous Switching Regulators, PWM Control Techniques |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 36 - Losses in Switching Regulators (Conduction Loss, Gate-Driver Switching Loss) |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 37 - Dead-Time Switching Loss in DC-DC Converters |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 38 - Hard Switching Loss in DC DC Converters |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 39 - Magnetic Loss in DC-DC Converters, Relative Significance of Losses as a Function of the Load Current |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 40 - Output Voltage Ripple of a Buck Converter |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 41 - Choosing the Inductor and Capacitor for a Buck Converter |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 42 - CCM Vs DCM Operation in DC DC Converters |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 43 - CCM DCM Boundary Condition, Voltage Conversion Ratio in DCM |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 44 - Concept of Pulse Frequency Modulation PFM |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 45 - Classification of Pulse Width Modulators |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 46 - DC - DC Converter Control Techniques, Stability Analysis of Voltage Mode Buck Converter - Part 1 |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 47 - Stability Analysis of Voltage Mode Buck Converter - Part 2 |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 48 - Stability Analysis of Voltage Mode Buck Converter - Part 3 |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 49 - Dominant Pole Compensation (Type-I with Gm-C Architecture) |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 50 - Dominant Pole Compensation (Type-I with Op Amp-RC Architecture) |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 51 - Introduction to Type-II Compensation |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 52 - Type-II Compensator using Gm-C Architecture - Part 1 |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 53 - Type-II Compensator using Gm-C Architecture - Part 2 |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 54 - Type-II Compensator using Gm-C Architecture - Part 3 |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 55 - Type-II Compensator using Op Amp-RC Architecture |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 56 - Introduction to Type-III Compensator |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 57 - Type-III Compensator using Op Amp-RC Architecture |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 58 - Simulation of DC-DC Converter with Type-III Compensator |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 59 - Type-III Compensator using Gm-C Architecture |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 60 - Feed-Forward Line Compensation, Loop Gain Compensation by Modulating Gm |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 61 - Designing a Buck Converter, Power Loss Budgeting |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 62 - Sizing Power MOSFETs |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 63 - Estimating Switching Losses and Choosing the Switching Frequency |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 64 - Choosing Inductance and Capacitance Values |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 65 - Choosing 'C' Depending on Factors that Limit the Load Transient Response |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 66 - Inductor and Capacitor Characteristics, Reducing the Effect of Capacitor ESL |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 67 - Gate Buffer and Non-Overlap Clock Generator in Gate-Driver Circuit |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 68 - Pulse-Width Modulator- Trailing Edge, Leading Edge and Dual Edge; Triangle Wave Generator |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 69 - Average Ramp Voltage of Single-Edge PW Modulator,Design Considerations of EA |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 70 - Delays Associated with PW Modulator, PFM and PSM Operation, DCM Operation using NMOS |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 71 - Designing a Zero-Cross Comparator, Inverter-Based Auto-Zeroed Comparator, Simulation Demo |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 72 - Current Mode Control- Peak, Valley, Emulated; VMC versus CMC; Sub-Harmonic Oscillation |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 73 - Ramp-Adaptive Slope Compensation to Avoid Current Loop Instability |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 74 - Non-Linear Control of DC-DC Converters, Phase-Shift between i_L and v_C |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 75 - Stabilising a Voltage-Mode Hysteretic Converter using R_esr, Relation between F_sw and the Hysteresis Window |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 76 - Hysteretic Converter - Simulation Demo |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 77 - Current-Mode Hysteretic Converter, Using R-C as Ripple Generator |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 78 - Controlling the Switching Frequency of a Hysteretic Converter, Delay in the Hysteretic Comparator |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 79 - Frequency and Voltage Regulation Loops in a Fixed-Frequency Hysteretic Converter |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 80 - Resetting the Capacitor Voltage in a Hysteretic Converter, Constant ON-Time Control |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 81 - Introduction to Boost Converter, RHP Zero in a Boost Converter |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 82 - Introduction to Buck-Boost Converter |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 83 - Tri-Mode Buck-Boost Converter (Buck, Buck-Boost and Boost) |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 84 - Boundary Conditions for Mode Transition in a Tri-Mode Buck-Boost Converter |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 85 - Generating Buck and Boost Duty Cycles in a Tri-Mode Buck-Boost Converter |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 86 - Introduction to Switched-Capacitor DC-DC Converters,Switched-Capacitor DC-DC Converter with V_o = 2*V_DD |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 87 - Applications of Switched-Capacitor DC-DC Converters in Open-Loop, Regulating the Output using Feedback Control |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 88 - H-Bridge Switched-Capacitor DC-DC Converter,SC DC-DC converter with Multiple Gain Settings |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 89 - Current Sensing Techniques in DC-DC Converters |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 90 - Analog Layout Techniques - Part 1 |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 91 - Analog Layout Techniques - Part 2 |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 92 - Digital Control of DC-DC Converters, ADC Architectures |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 93 - Digital Pulse-Width Modulator Architectures, Adaptive Compensation |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 94 - Limitations of Analog and Digital Controllers, Time-Based Controller for Buck Converter |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 95 - Time-Based Controller for Buck Converter and for LDO, Issues with Time-Based Control |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 96 - Multi-Phase DC-DC Converters |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 97 - Dynamic Voltage and Frequency Scaling, Single Inductor Multiple Output (SIMO) DC-DC Converter |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 98 - LCD/AMOLED Display Drivers - Part 1 |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 99 - LCD/AMOLED Display Drivers - Part 2 |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 100 - LCD/AMOLED Display Drivers - Part 3 |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 101 - LED Drivers for Camera Flash |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 102 - Li-Ion Battery and its Charging Phases |
| Link |
NOC:Power Management Integrated Circuits |
Lecture 103 - Battery Charger IC |
| Link |
NOC:DC Power Transmission Systems |
Lecture 1 - Course contents |
| Link |
NOC:DC Power Transmission Systems |
Lecture 2 - Introduction |
| Link |
NOC:DC Power Transmission Systems |
Lecture 3 - Historical developments |
| Link |
NOC:DC Power Transmission Systems |
Lecture 4 - Power semiconductor devices |
| Link |
NOC:DC Power Transmission Systems |
Lecture 5 - General converter configuration |
| Link |
NOC:DC Power Transmission Systems |
Lecture 6 - Choice of converter configuration: Valve utilization factor |
| Link |
NOC:DC Power Transmission Systems |
Lecture 7 - Choice of converter configuration: Transformer utilization factor |
| Link |
NOC:DC Power Transmission Systems |
Lecture 8 - Converter configuration for pulse number equal to 6 |
| Link |
NOC:DC Power Transmission Systems |
Lecture 9 - Analysis of 6 pulse LCC neglecting inductance |
| Link |
NOC:DC Power Transmission Systems |
Lecture 10 - Analysis of 6 pulse LCC neglecting inductance: Jumps in voltage across a valve |
| Link |
NOC:DC Power Transmission Systems |
Lecture 11 - Analysis of 6 pulse LCC neglecting inductance: Average DC side voltage |
| Link |
NOC:DC Power Transmission Systems |
Lecture 12 - Fourier series - Part 1 |
| Link |
NOC:DC Power Transmission Systems |
Lecture 13 - Fourier series - Part 2 |
| Link |
NOC:DC Power Transmission Systems |
Lecture 14 - Analysis of 6 pulse LCC neglecting inductance: DC side voltage harmonics |
| Link |
NOC:DC Power Transmission Systems |
Lecture 15 - Analysis of 6 pulse LCC neglecting inductance: Fundamental and harmonic components of AC side current |
| Link |
NOC:DC Power Transmission Systems |
Lecture 16 - Definitions: Delay angle, angle of advance, commutation margin angle |
| Link |
NOC:DC Power Transmission Systems |
Lecture 17 - Commutation margin angle in a 6 pulse LCC neglecting inductance - Part 1 |
| Link |
NOC:DC Power Transmission Systems |
Lecture 18 - Commutation margin angle in a 6 pulse LCC neglecting inductance - Part 2 |
| Link |
NOC:DC Power Transmission Systems |
Lecture 19 - Instantaneous power on AC and DC sides in a 6 pulse LCC neglecting inductance |
| Link |
NOC:DC Power Transmission Systems |
Lecture 20 - Average power on AC and DC sides in a 6 pulse LCC neglecting inductance |
| Link |
NOC:DC Power Transmission Systems |
Lecture 21 - 6 pulse LCC with inductance |
| Link |
NOC:DC Power Transmission Systems |
Lecture 22 - 2 and 3 valve conduction mode of 6 pulse LCC |
| Link |
NOC:DC Power Transmission Systems |
Lecture 23 - 2 and 3 valve conduction mode of 6 pulse LCC: DC side voltage harmonics |
| Link |
NOC:DC Power Transmission Systems |
Lecture 24 - 2 and 3 valve conduction mode of 6 pulse LCC: DC side voltage and voltage across a valve |
| Link |
NOC:DC Power Transmission Systems |
Lecture 25 - 2 and 3 valve conduction mode of 6 pulse LCC: Fundamental and harmonic components of AC side current |
| Link |
NOC:DC Power Transmission Systems |
Lecture 26 - Extinction angle |
| Link |
NOC:DC Power Transmission Systems |
Lecture 27 - Extinction angle: Commutation margin angle for normal inverter operation of 6 pulse LCC |
| Link |
NOC:DC Power Transmission Systems |
Lecture 28 - 3 and 4 valve conduction mode of 6 pulse LCC |
| Link |
NOC:DC Power Transmission Systems |
Lecture 29 - Analysis of 3 and 4 valve conduction mode of 6 pulse LCC - Part 1 |
| Link |
NOC:DC Power Transmission Systems |
Lecture 30 - Analysis of 3 and 4 valve conduction mode of 6 pulse LCC - Part 2 |
| Link |
NOC:DC Power Transmission Systems |
Lecture 31 - Analysis of 3 and 4 valve conduction mode of 6 pulse LCC - Part 3 |
| Link |
NOC:DC Power Transmission Systems |
Lecture 32 - 3 valve conduction mode of 6 pulse LCC |
| Link |
NOC:DC Power Transmission Systems |
Lecture 33 - Commutation margin angle |
| Link |
NOC:DC Power Transmission Systems |
Lecture 34 - Normalization |
| Link |
NOC:DC Power Transmission Systems |
Lecture 35 - Characteristics of 6 pulse LCC - Part 1 |
| Link |
NOC:DC Power Transmission Systems |
Lecture 36 - Characteristics of 6 pulse LCC - Part 2 |
| Link |
NOC:DC Power Transmission Systems |
Lecture 37 - Steady state analysis of a general LCC - Part 1 |
| Link |
NOC:DC Power Transmission Systems |
Lecture 38 - Steady state analysis of a general LCC - Part 2 |
| Link |
NOC:DC Power Transmission Systems |
Lecture 39 - Steady state analysis of a general LCC - Application to 6 pulse LCC |
| Link |
NOC:DC Power Transmission Systems |
Lecture 40 - 6 pulse LCC with resistance included on the AC side |
| Link |
NOC:DC Power Transmission Systems |
Lecture 41 - 6 pulse LCC with resistance, inductance and voltage source on the DC side - Part 1 |
| Link |
NOC:DC Power Transmission Systems |
Lecture 42 - 6 pulse LCC with resistance, inductance and voltage source on the DC side - Part 2 |
| Link |
NOC:DC Power Transmission Systems |
Lecture 43 - Power factor |
| Link |
NOC:DC Power Transmission Systems |
Lecture 44 - Capacitor commutated converter - Part 1 |
| Link |
NOC:DC Power Transmission Systems |
Lecture 45 - Capacitor commutated converter - Part 2 |
| Link |
NOC:DC Power Transmission Systems |
Lecture 46 - 12 pulse LCC - Part 1 |
| Link |
NOC:DC Power Transmission Systems |
Lecture 47 - 12 pulse LCC - Part 2 |
| Link |
NOC:DC Power Transmission Systems |
Lecture 48 - Modes of operation of 12 pulse LCC |
| Link |
NOC:DC Power Transmission Systems |
Lecture 49 - Purposes of transformer |
| Link |
NOC:DC Power Transmission Systems |
Lecture 50 - Applications of DC transmission |
| Link |
NOC:DC Power Transmission Systems |
Lecture 51 - Types of DC link: Monopolar |
| Link |
NOC:DC Power Transmission Systems |
Lecture 52 - Types of DC link: Bipolar and homopolar |
| Link |
NOC:DC Power Transmission Systems |
Lecture 53 - DC link control |
| Link |
NOC:DC Power Transmission Systems |
Lecture 54 - DC link control: Control variables |
| Link |
NOC:DC Power Transmission Systems |
Lecture 55 - Considerations that influence selection of control |
| Link |
NOC:DC Power Transmission Systems |
Lecture 56 - Converter control characteristics |
| Link |
NOC:DC Power Transmission Systems |
Lecture 57 - MTDC systens: Applications |
| Link |
NOC:DC Power Transmission Systems |
Lecture 58 - Types of MTDC systems |
| Link |
NOC:DC Power Transmission Systems |
Lecture 59 - Non-characteristic harmonics |
| Link |
NOC:DC Power Transmission Systems |
Lecture 60 - Effect of firing angle errors |
| Link |
NOC:DC Power Transmission Systems |
Lecture 61 - Problems with harmonics |
| Link |
NOC:DC Power Transmission Systems |
Lecture 62 - Single tuned filter |
| Link |
NOC:DC Power Transmission Systems |
Lecture 63 - Design of single tuned filter - Part 1 |
| Link |
NOC:DC Power Transmission Systems |
Lecture 64 - Design of single tuned filter - Part 2 |
| Link |
NOC:DC Power Transmission Systems |
Lecture 65 - Double tuned and damped filters |
| Link |
NOC:DC Power Transmission Systems |
Lecture 66 - Reactive power requirement |
| Link |
NOC:DC Power Transmission Systems |
Lecture 67 - Comparison of AC and DC transmission |
| Link |
NOC:Optical Engineering |
Lecture 1 - Introduction to Optical Engineering |
| Link |
NOC:Optical Engineering |
Lecture 2 - Geometric Optics Basics |
| Link |
NOC:Optical Engineering |
Lecture 3 - Refraction at a single surface |
| Link |
NOC:Optical Engineering |
Lecture 4 - Lab 1 Introduction to OSLO |
| Link |
NOC:Optical Engineering |
Lecture 5 - Stops and Rays |
| Link |
NOC:Optical Engineering |
Lecture 6 - Aperture stop - Part 1 |
| Link |
NOC:Optical Engineering |
Lecture 7 - Aperture stop - Part 2 |
| Link |
NOC:Optical Engineering |
Lecture 8 - Lab 2 OSLO |
| Link |
NOC:Optical Engineering |
Lecture 9 - Imaging equation for thick lens using ABCD matrix |
| Link |
NOC:Optical Engineering |
Lecture 10 - Ray Tracing Matrix - Part 1 |
| Link |
NOC:Optical Engineering |
Lecture 11 - Ray Tracing Matrix - Part 2 |
| Link |
NOC:Optical Engineering |
Lecture 12 - Principal Planes |
| Link |
NOC:Optical Engineering |
Lecture 13 - Lab 3 OSLO |
| Link |
NOC:Optical Engineering |
Lecture 14 - Tracing rays through optical pupils - Part 1 |
| Link |
NOC:Optical Engineering |
Lecture 15 - Tracing rays through optical pupils - Part 2 |
| Link |
NOC:Optical Engineering |
Lecture 16 - Aberrations |
| Link |
NOC:Optical Engineering |
Lecture 17 - Monochromatic Aberrations - Part 1 |
| Link |
NOC:Optical Engineering |
Lecture 18 - Monochromatic Aberrations - Part 2 |
| Link |
NOC:Optical Engineering |
Lecture 19 - Lab 4 - OSLO |
| Link |
NOC:Optical Engineering |
Lecture 20 - Chromatic Aberrations and Aberration correction |
| Link |
NOC:Optical Engineering |
Lecture 21 - Aberration correction |
| Link |
NOC:Optical Engineering |
Lecture 22 - Revisiting Ray intercept curves |
| Link |
NOC:Optical Engineering |
Lecture 23 - Lab 5 - OSLO |
| Link |
NOC:Optical Engineering |
Lecture 24 - Interesting Geometric phenomena and applications |
| Link |
NOC:Optical Engineering |
Lecture 25 - Gaussian beams introduction |
| Link |
NOC:Optical Engineering |
Lecture 26 - Gaussian beams |
| Link |
NOC:Optical Engineering |
Lecture 27 - Lab 6 - OSLO |
| Link |
NOC:Optical Engineering |
Lecture 28 - ransformation of a Gaussian beam |
| Link |
NOC:Optical Engineering |
Lecture 29 - Transformation of a Gaussian beam due to a lens and a mirror |
| Link |
NOC:Optical Engineering |
Lecture 30 - Application of Gaussian beam equations |
| Link |
NOC:Optical Engineering |
Lecture 31 - Interferometry basics |
| Link |
NOC:Optical Engineering |
Lecture 32 - Interferometry basics - Part 1 |
| Link |
NOC:Optical Engineering |
Lecture 33 - Introduction to Python |
| Link |
NOC:Optical Engineering |
Lecture 34 - Python - Part 2 |
| Link |
NOC:Optical Engineering |
Lecture 35 - Introduction to Matlab |
| Link |
NOC:Optical Engineering |
Lecture 36 - Interferometry basics - Part 2 |
| Link |
NOC:Optical Engineering |
Lecture 37 - Python - Part 3 |
| Link |
NOC:Optical Engineering |
Lecture 38 - Matlab tutorial on interference |
| Link |
NOC:Optical Engineering |
Lecture 39 - Applications of interference - Part 1 |
| Link |
NOC:Optical Engineering |
Lecture 40 - Holography |
| Link |
NOC:Optical Engineering |
Lecture 41 - Applications of interference |
| Link |
NOC:Optical Engineering |
Lecture 42 - Applications of Optical Engineering |
| Link |
NOC:Optical Engineering |
Lecture 43 - Diffractive Optics |
| Link |
NOC:Optical Engineering |
Lecture 44 - Diffraction Grating |
| Link |
NOC:Nonlinear System Analysis |
Lecture 1 - Examples of Nonlinear Physical Systems |
| Link |
NOC:Nonlinear System Analysis |
Lecture 2 - Math Preliminaries - Part 1 |
| Link |
NOC:Nonlinear System Analysis |
Lecture 3 - Math Preliminaries - Part 2 |
| Link |
NOC:Nonlinear System Analysis |
Lecture 4 - Math Preliminaries - Part 3 |
| Link |
NOC:Nonlinear System Analysis |
Lecture 5 - Lipschitz Continuity and Contraction Mapping Theorem - Part 1 |
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NOC:Nonlinear System Analysis |
Lecture 6 - Lipschitz Continuity and Contraction Mapping Theorem - Part 2 |
| Link |
NOC:Nonlinear System Analysis |
Lecture 7 - Lipschitz Continuity and Contraction Mapping Theorem - Part 3 |
| Link |
NOC:Nonlinear System Analysis |
Lecture 8 - Existence and Uniqueness Theorem of ODE - Part 1 |
| Link |
NOC:Nonlinear System Analysis |
Lecture 9 - Existence and Uniqueness Theorem of ODE - Part 2 |
| Link |
NOC:Nonlinear System Analysis |
Lecture 10 - Existence and Uniqueness Theorem of ODE - Part 3 |
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NOC:Nonlinear System Analysis |
Lecture 11 - Existence and Uniqueness Theorem of ODE - Part 4 |
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NOC:Nonlinear System Analysis |
Lecture 12 - Equilibrium Points |
| Link |
NOC:Nonlinear System Analysis |
Lecture 13 - Phase Portrait - Part 1 |
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NOC:Nonlinear System Analysis |
Lecture 14 - Phase Portrait - Part 2 |
| Link |
NOC:Nonlinear System Analysis |
Lecture 15 - Phase Portrait - Part 3 |
| Link |
NOC:Nonlinear System Analysis |
Lecture 16 - Phase portrait of Nonlinear Systems: Examples |
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NOC:Nonlinear System Analysis |
Lecture 17 - Limit Cycles |
| Link |
NOC:Nonlinear System Analysis |
Lecture 18 - Limit Cycles - Examples - Part 1 |
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NOC:Nonlinear System Analysis |
Lecture 19 - Limit Cycles - Examples - Part 2 |
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NOC:Nonlinear System Analysis |
Lecture 20 - Introduction to Bifurcation Theory - 1 |
| Link |
NOC:Nonlinear System Analysis |
Lecture 21 - Introduction to Bifurcation Theory - 2 |
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NOC:Nonlinear System Analysis |
Lecture 22 - Necessary and Sufficient Conditions for Local Bifurcation |
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NOC:Nonlinear System Analysis |
Lecture 23 - Problems on Bifurcation Theory. |
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NOC:Nonlinear System Analysis |
Lecture 24 - Stability Notions: Lyapunov and LaSalle's theorem - Part 1 |
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NOC:Nonlinear System Analysis |
Lecture 25 - Stability Notions: Lyapunov and LaSalle's theorem - Part 2 |
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NOC:Nonlinear System Analysis |
Lecture 26 - Stability Notions: Lyapunov and LaSalle's theorem - Part 3 |
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NOC:Nonlinear System Analysis |
Lecture 27 - Stability Notions: Lyapunov and LaSalle's theorem - Part 4 |
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NOC:Nonlinear System Analysis |
Lecture 28 - Stability Analysis and types of stability |
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NOC:Nonlinear System Analysis |
Lecture 29 - Lypaunov Stability |
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NOC:Nonlinear System Analysis |
Lecture 30 - Supplementary lecture: Comparison Lemma and Lyapunov Stability |
| Link |
NOC:Nonlinear System Analysis |
Lecture 31 - Center Manifold Theorem |
| Link |
NOC:Nonlinear System Analysis |
Lecture 32 - Interconnection between non linearity and a linear system - Sector Nonlinearities And Aizermann’s conjecture |
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NOC:Nonlinear System Analysis |
Lecture 33 - Counter example for Aizermann’s conjecture |
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NOC:Nonlinear System Analysis |
Lecture 34 - Passivity inspiration - passive circuits - dissipation equality |
| Link |
NOC:Nonlinear System Analysis |
Lecture 35 - Dissipative Equality for circuit (Continued...) |
| Link |
NOC:Nonlinear System Analysis |
Lecture 36 - PR condition for passivity of SISO system |
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NOC:Nonlinear System Analysis |
Lecture 37 - Examples of PR transfer functions |
| Link |
NOC:Nonlinear System Analysis |
Lecture 38 - Relation between storage function and Lyapunov function - PR Lemma |
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NOC:Nonlinear System Analysis |
Lecture 39 - Proof of PR Lemma |
| Link |
NOC:Nonlinear System Analysis |
Lecture 40 - Proof (Continued...) using spectral factorization theorem |
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NOC:Nonlinear System Analysis |
Lecture 41 - PR definition for MIMO case |
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NOC:Nonlinear System Analysis |
Lecture 42 - PSD Storage function in PR Lemma and how to make it PD (strictly PR) |
| Link |
NOC:Nonlinear System Analysis |
Lecture 43 - KYP Theorem |
| Link |
NOC:Nonlinear System Analysis |
Lecture 44 - Passivity preservation under interconnection |
| Link |
NOC:Nonlinear System Analysis |
Lecture 45 - Aizermann’s conjecture under passivity assumption is true |
| Link |
NOC:Nonlinear System Analysis |
Lecture 46 - Sector Nonlinearities and need for generlaizing KYP Lemma |
| Link |
NOC:Nonlinear System Analysis |
Lecture 47 - Need for Loop transformations |
| Link |
NOC:Nonlinear System Analysis |
Lecture 48 - Loop Transformations - Part 1 |
| Link |
NOC:Nonlinear System Analysis |
Lecture 49 - Loop Transformations - Part 2 |
| Link |
NOC:Nonlinear System Analysis |
Lecture 50 - Circle criterion for PR |
| Link |
NOC:Nonlinear System Analysis |
Lecture 51 - Examples based on circle criterion and stability under circle transformations |
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NOC:Signals and Systems |
Lecture 1 - Real and Complex Number |
| Link |
NOC:Signals and Systems |
Lecture 2 - Sinusoid and Phasor |
| Link |
NOC:Signals and Systems |
Lecture 3 - Limits and Continuity |
| Link |
NOC:Signals and Systems |
Lecture 4 - Differentiation and Integration |
| Link |
NOC:Signals and Systems |
Lecture 5 - L’Hospital’s Rule |
| Link |
NOC:Signals and Systems |
Lecture 6 - LTI System Examples; Impedance |
| Link |
NOC:Signals and Systems |
Lecture 7 - Dirac Delta function; Impulse |
| Link |
NOC:Signals and Systems |
Lecture 8 - Continuous and Discrete Time Systems |
| Link |
NOC:Signals and Systems |
Lecture 9 - Even Signal; Odd Signal |
| Link |
NOC:Signals and Systems |
Lecture 10 - Orthogonality of Signals |
| Link |
NOC:Signals and Systems |
Lecture 11 - Shifting and Scaling in Continuous Time - I |
| Link |
NOC:Signals and Systems |
Lecture 12 - Shifting and Scaling in Continuous Time - II |
| Link |
NOC:Signals and Systems |
Lecture 13 - Shifting and Scaling in Discrete Time |
| Link |
NOC:Signals and Systems |
Lecture 14 - Signal and Noise |
| Link |
NOC:Signals and Systems |
Lecture 15 - Signals in the Physical World |
| Link |
NOC:Signals and Systems |
Lecture 16 - Signals and Sensory Perception |
| Link |
NOC:Signals and Systems |
Lecture 17 - Frequency Domain Representation |
| Link |
NOC:Signals and Systems |
Lecture 18 - Definition of Fourier Transform |
| Link |
NOC:Signals and Systems |
Lecture 19 - Fourier Transform : Examples I |
| Link |
NOC:Signals and Systems |
Lecture 20 - Dirichlet Conditions |
| Link |
NOC:Signals and Systems |
Lecture 21 - Inverse Fourier Transform |
| Link |
NOC:Signals and Systems |
Lecture 22 - Fourier Transform : Examples II |
| Link |
NOC:Signals and Systems |
Lecture 23 - Frequency-Time Uncertainty Relation |
| Link |
NOC:Signals and Systems |
Lecture 24 - Fourier Transform : Linearity, Time Shifting and Time Scaling |
| Link |
NOC:Signals and Systems |
Lecture 25 - Fourier Transform : Derivative Property |
| Link |
NOC:Signals and Systems |
Lecture 26 - Fourier Transform : Multiplication and Convolution Property |
| Link |
NOC:Signals and Systems |
Lecture 27 - Fourier Transform : Integral Property |
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NOC:Signals and Systems |
Lecture 28 - Fourier Transform : Example III |
| Link |
NOC:Signals and Systems |
Lecture 29 - Fourier Transform : Example IV |
| Link |
NOC:Signals and Systems |
Lecture 30 - Fourier Transform of Noise |
| Link |
NOC:Signals and Systems |
Lecture 31 - Types of Noise |
| Link |
NOC:Signals and Systems |
Lecture 32 - Overview of Systems and General Properties |
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NOC:Signals and Systems |
Lecture 33 - Linearity and Time Invariance |
| Link |
NOC:Signals and Systems |
Lecture 34 - LTI System Examples |
| Link |
NOC:Signals and Systems |
Lecture 35 - Frequency Response of RLC circuits - I |
| Link |
NOC:Signals and Systems |
Lecture 36 - Frequency Response of RLC circuits - II |
| Link |
NOC:Signals and Systems |
Lecture 37 - LCCDE Representation of Continuous-Time LTI Systems |
| Link |
NOC:Signals and Systems |
Lecture 38 - Frequency Domain Representation of LCCDE Systems |
| Link |
NOC:Signals and Systems |
Lecture 39 - Time Domain Representation of LTI Systems |
| Link |
NOC:Signals and Systems |
Lecture 40 - Continuous-Time Convolution Integral |
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NOC:Signals and Systems |
Lecture 41 - Continuous-Time Convolution : Example I |
| Link |
NOC:Signals and Systems |
Lecture 42 - Continuous-Time Convolution : Example II |
| Link |
NOC:Signals and Systems |
Lecture 43 - Continuous-Time Convolution : Example III |
| Link |
NOC:Signals and Systems |
Lecture 44 - LTI Systems : Commutative, Distributive and Associative |
| Link |
NOC:Signals and Systems |
Lecture 45 - LTI Systems : Memorylessness and Invertibility |
| Link |
NOC:Signals and Systems |
Lecture 46 - LTI Systems : Causality and Stability |
| Link |
NOC:Signals and Systems |
Lecture 47 - Fourier Transform in Complex Frequency Domain |
| Link |
NOC:Signals and Systems |
Lecture 48 - Laplace Transform : Poles and Zeros |
| Link |
NOC:Signals and Systems |
Lecture 49 - Laplace Transform : Region of Convergence [ROC] |
| Link |
NOC:Signals and Systems |
Lecture 50 - Laplace Transform : Examples I |
| Link |
NOC:Signals and Systems |
Lecture 51 - Laplace Transform : Examples II |
| Link |
NOC:Signals and Systems |
Lecture 52 - Laplace Analysis of LTI Systems |
| Link |
NOC:Signals and Systems |
Lecture 53 - Laplace Analysis of RLC Circuits - I |
| Link |
NOC:Signals and Systems |
Lecture 54 - Laplace Transform : Linearity, Shifting and Scaling |
| Link |
NOC:Signals and Systems |
Lecture 55 - Laplace Transform : Derivative and Integral |
| Link |
NOC:Signals and Systems |
Lecture 56 - Laplace Transform : Causality and Stability |
| Link |
NOC:Signals and Systems |
Lecture 57 - Laplace Analysis of LTI Systems : Example I |
| Link |
NOC:Signals and Systems |
Lecture 58 - Laplace Analysis of LTI Systems : Example II |
| Link |
NOC:Signals and Systems |
Lecture 59 - Laplace Analysis of First Order RLC Circuits |
| Link |
NOC:Signals and Systems |
Lecture 60 - Laplace Analysis of Second Order RLC Circuits |
| Link |
NOC:Signals and Systems |
Lecture 61 - Fourier Transform of Periodic Signals |
| Link |
NOC:Signals and Systems |
Lecture 62 - Fourier Series Representation in Continuous-Time |
| Link |
NOC:Signals and Systems |
Lecture 63 - Fourier Series Properties - I |
| Link |
NOC:Signals and Systems |
Lecture 64 - Fourier Series Properties - II |
| Link |
NOC:Signals and Systems |
Lecture 65 - LTI System Response for Periodic Input Signal |
| Link |
NOC:Signals and Systems |
Lecture 66 - Fourier Series in Continuous-Time : Examples I |
| Link |
NOC:Signals and Systems |
Lecture 67 - Fourier Series in Continuous-Time : Examples II |
| Link |
NOC:Signals and Systems |
Lecture 68 - Discrete-Time Convolution Sum |
| Link |
NOC:Signals and Systems |
Lecture 69 - Discrete-Time Convolution Sum Examples and Properties |
| Link |
NOC:Signals and Systems |
Lecture 70 - LCCDE Representation of Discrete-Time LTI Systems |
| Link |
NOC:Signals and Systems |
Lecture 71 - Impulse Train Sampling |
| Link |
NOC:Signals and Systems |
Lecture 72 - Reconstruction of Continuous-Time Signal |
| Link |
NOC:Signals and Systems |
Lecture 73 - Nyquist Sampling Theorem and Aliasing |
| Link |
NOC:Signals and Systems |
Lecture 74 - Fourier Transform of Sampled Signals |
| Link |
NOC:Signals and Systems |
Lecture 75 - DTFT : Examples I |
| Link |
NOC:Signals and Systems |
Lecture 76 - DTFT Properties I: Periodicity, Linearity, Time/Frequency shifting, and Conjugation |
| Link |
NOC:Signals and Systems |
Lecture 77 - DTFT Properties II: Differencing and Accumulation in Time Domain, Differentiation in Frequency Domain |
| Link |
NOC:Signals and Systems |
Lecture 78 - DTFT Properties III: Time Reversal, Time Expansion, Convolution and Parsevaal’s Relation |
| Link |
NOC:Signals and Systems |
Lecture 79 - DTFT : Examples II |
| Link |
NOC:Signals and Systems |
Lecture 80 - DTFT in Complex Frequency Domain |
| Link |
NOC:Signals and Systems |
Lecture 81 - Z-Transform : Properties of ROC |
| Link |
NOC:Signals and Systems |
Lecture 82 - Z-Transform Properties I: Linearity, Time-Shifting, Time-Expansion, Time-Reversal, and Z-Scaling |
| Link |
NOC:Signals and Systems |
Lecture 83 - Z-Transform Properties II: Conjugation and Convolution |
| Link |
NOC:Signals and Systems |
Lecture 84 - Z-Transform Properties III: Causality and Stability |
| Link |
NOC:Signals and Systems |
Lecture 85 - Z-Transform : Examples I |
| Link |
NOC:Signals and Systems |
Lecture 86 - Z-Transform : Examples II |
| Link |
NOC:Signals and Systems |
Lecture 87 - Block Diagram Representation |
| Link |
NOC:Linear Dynamical Systems |
Lecture 1 - Response and state-space solution of Linear systems |
| Link |
NOC:Linear Dynamical Systems |
Lecture 2 - Solution of LTV systems |
| Link |
NOC:Linear Dynamical Systems |
Lecture 3 - Solution of LTI systems |
| Link |
NOC:Linear Dynamical Systems |
Lecture 4 - Equivalent State Equations |
| Link |
NOC:Linear Dynamical Systems |
Lecture 5 - Realization of LTI and LTV Systems |
| Link |
NOC:Linear Dynamical Systems |
Lecture 6 - Tutorial - 1 |
| Link |
NOC:Linear Dynamical Systems |
Lecture 7 - Introduction to Stability Analysis |
| Link |
NOC:Linear Dynamical Systems |
Lecture 8 - Lyapunov Stability - Part I |
| Link |
NOC:Linear Dynamical Systems |
Lecture 9 - Lyapunov Stability - Part II |
| Link |
NOC:Linear Dynamical Systems |
Lecture 10 - Proof of lyapunov stability theorem |
| Link |
NOC:Linear Dynamical Systems |
Lecture 11 - BIBO vs Lyapunov Stability |
| Link |
NOC:Linear Dynamical Systems |
Lecture 12 - BIBO vs Lyapunov Stability |
| Link |
NOC:Linear Dynamical Systems |
Lecture 13 - Tutorial - 2 |
| Link |
NOC:Linear Dynamical Systems |
Lecture 14 - Introduction to Controllability |
| Link |
NOC:Linear Dynamical Systems |
Lecture 15 - Reachability and Controllability Gramians |
| Link |
NOC:Linear Dynamical Systems |
Lecture 16 - Controllability Matrix |
| Link |
NOC:Linear Dynamical Systems |
Lecture 17 - Discrete-time Reachability and Controllability Gramians |
| Link |
NOC:Linear Dynamical Systems |
Lecture 18 - Tests for controllability - I |
| Link |
NOC:Linear Dynamical Systems |
Lecture 19 - Tests for controllability - II |
| Link |
NOC:Linear Dynamical Systems |
Lecture 20 - Tutorial - 3 |
| Link |
NOC:Linear Dynamical Systems |
Lecture 21 - Tests for controllability - III |
| Link |
NOC:Linear Dynamical Systems |
Lecture 22 - Tests for controllability - IV |
| Link |
NOC:Linear Dynamical Systems |
Lecture 23 - Controllable Decomposition - I |
| Link |
NOC:Linear Dynamical Systems |
Lecture 24 - Stabilizable Systems |
| Link |
NOC:Linear Dynamical Systems |
Lecture 25 - Tests for Stabilizability |
| Link |
NOC:Linear Dynamical Systems |
Lecture 26 - Tutorial - 4 |
| Link |
NOC:Linear Dynamical Systems |
Lecture 27 - State Feeback - I |
| Link |
NOC:Linear Dynamical Systems |
Lecture 28 - State Feeback - II |
| Link |
NOC:Linear Dynamical Systems |
Lecture 29 - Lyapunov Method of State Feedback Design |
| Link |
NOC:Linear Dynamical Systems |
Lecture 30 - Regulation and Tracking |
| Link |
NOC:Linear Dynamical Systems |
Lecture 31 - Tutorial - 5 |
| Link |
NOC:Linear Dynamical Systems |
Lecture 32 - Robust Tracking and Disturbance Rejection |
| Link |
NOC:Linear Dynamical Systems |
Lecture 33 - State Feedback design for Multi-input systems |
| Link |
NOC:Linear Dynamical Systems |
Lecture 34 - Linear Quadratic Regulator |
| Link |
NOC:Linear Dynamical Systems |
Lecture 35 - Tutorial - 6 |
| Link |
NOC:Linear Dynamical Systems |
Lecture 36 - Output feedback and observability |
| Link |
NOC:Linear Dynamical Systems |
Lecture 37 - Duality and Observability tests |
| Link |
NOC:Linear Dynamical Systems |
Lecture 38 - Decompostions and Detectability |
| Link |
NOC:Linear Dynamical Systems |
Lecture 39 - Minimal Realisations |
| Link |
NOC:Linear Dynamical Systems |
Lecture 40 - Observer Design and Output Feedback |
| Link |
NOC:Linear Dynamical Systems |
Lecture 41 - Observer Design and Output Feedback |
| Link |
NOC:Linear Dynamical Systems |
Lecture 42 - UIO |
| Link |
NOC:Linear Dynamical Systems |
Lecture 43 - Tutorial - 7 and 8 (combined) |
| Link |
NOC:A brief Introduction of Micro-Sensors |
Lecture 1 - Introduction to Microscale Sensors or MEMS |
| Link |
NOC:A brief Introduction of Micro-Sensors |
Lecture 2 - Scaling effect |
| Link |
NOC:A brief Introduction of Micro-Sensors |
Lecture 3 - Some Simple Mechanics |
| Link |
NOC:A brief Introduction of Micro-Sensors |
Lecture 4 - Basic Mechanics - Part 1 |
| Link |
NOC:A brief Introduction of Micro-Sensors |
Lecture 5 - Basic Mechanics - Part 2 |
| Link |
NOC:A brief Introduction of Micro-Sensors |
Lecture 6 - Basic Mechanics - Part 3 |
| Link |
NOC:A brief Introduction of Micro-Sensors |
Lecture 7 - Electrostatics |
| Link |
NOC:A brief Introduction of Micro-Sensors |
Lecture 8 - Electrostatic force |
| Link |
NOC:A brief Introduction of Micro-Sensors |
Lecture 9 - Coupled electromechanics |
| Link |
NOC:A brief Introduction of Micro-Sensors |
Lecture 10 - Stiction |
| Link |
NOC:A brief Introduction of Micro-Sensors |
Lecture 11 - Si crystal structure |
| Link |
NOC:A brief Introduction of Micro-Sensors |
Lecture 12 - Si etching |
| Link |
NOC:A brief Introduction of Micro-Sensors |
Lecture 13 - KOH etching |
| Link |
NOC:A brief Introduction of Micro-Sensors |
Lecture 14 - TMAH etching |
| Link |
NOC:A brief Introduction of Micro-Sensors |
Lecture 15 - Deposition and Lithography |
| Link |
NOC:A brief Introduction of Micro-Sensors |
Lecture 16 - Lithography |
| Link |
NOC:A brief Introduction of Micro-Sensors |
Lecture 17 - Pressure sensor types, membrane, Piezoelectric sensing, capacitive sensing |
| Link |
NOC:A brief Introduction of Micro-Sensors |
Lecture 18 - Pressure Sensor - II |
| Link |
NOC:A brief Introduction of Micro-Sensors |
Lecture 19 - Pressure Sensor - III |
| Link |
NOC:A brief Introduction of Micro-Sensors |
Lecture 20 - Accelerometer - I |
| Link |
NOC:A brief Introduction of Micro-Sensors |
Lecture 21 - Accelerometer - II |
| Link |
NOC:A brief Introduction of Micro-Sensors |
Lecture 22 - Assignment 1 |
| Link |
NOC:A brief Introduction of Micro-Sensors |
Lecture 23 - Assignment 2 |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 1 - Introduction to FOCT: Prerequisites, Course Content and Learning Outcomes |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 2 - Communication through the ages |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 3 - Communication: Basics - 1 |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 4 - Communication: Basics - 2 |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 5 - Digital Communication for Optical Communication |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 6 - Digital modulation: Basics - 2 |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 7 - Digital modulation: Basics - 3 |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 8 - Optical communication system |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 9 - Assignment Discussion - Week 1 |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 10 - Optical Sources |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 11 - Semiconductor gain media- structure, spectrum |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 12 - Optical sources: LED |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 13 - External Quantum Efficiency |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 14 - Modulation Bandwidth of LED |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 15 - Optical and Electrical Bandwidth of LED |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 16 - Emission Pattern of LED |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 17 - Optical Sources: Laser Diodes over LEDs |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 18 - Laser Diodes: Resonator Concepts 1a |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 19 - Laser Diodes: Resonator Concepts 1b |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 20 - Laser Diodes: Resonator Concepts 1c |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 21 - Assignment Discussion - Week 2 |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 22 - Laser Diodes: Gain Coefficient |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 23 - Laser Diodes: Photon life time |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 24 - Laser rate equation: Steady State solution1 |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 25 - Laser rate equation: LI Chara |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 26 - Laser power derivation |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 27 - Modulation Response of Laser - 1 |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 28 - Modulation Response of Laser - 2 |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 29 - Modulation Response of Laser - 3 |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 30 - Setbacks of direct modulation of laser: Modulation Chirp |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 31 - Setbacks of direct modulation of laser: Transcient Chirp |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 32 - Assignment Discussion - Week 3 |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 33 - Recap of direction modulation consequences |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 34 - Noise in Lasers |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 35 - Relative Intensity Noise |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 36 - Laser Phase Noise - 1 |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 37 - Laser Phase Noise - 2 |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 38 - Effect of Laser Phase Noise: A case study |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 39 - Electro-optic phase modulation |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 40 - Electro-optic intensity modulator |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 41 - Biasing of MZM: BPSK Generation |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 42 - Biasing of MZM: QPSK and 16 QAM Generation |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 43 - Line coding schemes and their bandwidth requirements |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 44 - Assignment Discussion - Week 4 |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 45 - Introduction to optical Fiber |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 46 - Attenuation in optical fibers |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 47 - Fiber Modes |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 48 - Modes of a step index fiber - 1 |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 49 - Modes of a step index fiber - 2 |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 50 - Modes of a step index fiber - 3 |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 51 - Modes of a step index fiber - 4 |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 52 - Modes of a step index fiber - 5 |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 53 - Modes and Cut-off conditions |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 54 - Universal b-V curves |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 55 - Modal Profiles in step index fiber |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 56 - Mode Field Diameter |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 57 - Dispersion- Intermodal dispersion derivation |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 58 - Dispersion-Bit rate distance Product |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 59 - Phase Velocity and Group Velocity - 1 |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 60 - Phase Velocity and Group Velocity - 2 |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 61 - Material dispersion |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 62 - Waveguide dispersion |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 63 - Total Dispersion in optical fiber |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 64 - Polarization mode dispersion |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 65 - Photodetectors concepts |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 66 - p-n and p-i-n Photodetectors |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 67 - Avalance Photodetector |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 68 - Direct detection receiver and sources of noise |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 69 - Quantifying noises in direct detection receivers |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 70 - SNR and Operation Regimes |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 71 - Noise Equivalent power and SNR in APDs |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 72 - Coherent Receivers |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 73 - SNR analysis of coherent receivers |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 74 - Performance Evaluation - 1 |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 75 - Performance Evaluation - 2 |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 76 - Performance Metrics: BER,Q, and Receiver Sensitivity |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 77 - Performance Metrics:Q and SNR |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 78 - Quantum limit of photodetection |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 79 - Optical Amplifier |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 80 - Erbium doped fiber amplifier - 1 |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 81 - Erbium doped fiber amplifier - 2 |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 82 - Erbium doped fiber amplifier - 3 |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 83 - Erbium doped fiber amplifier - 4 |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 84 - Link Design - Rise Time Budget |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 85 - Link Design - Case Study |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 86 - Link Design - Passive Optical Network and long haul link |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 87 - Dispersion - Recap |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 88 - Dispersion Compensation - Pulse Propagation with disperison |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 89 - Pulse propagation - 2 |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 90 - Dispersion Compensation - Dispersion Transfer Function |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 91 - Dispersion Compensation - Case Study |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 92 - Dispersion COmpensation - WDM and DSP |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 93 - Nonlinear Effects- Nonlinear refractive Index |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 94 - Self Phase Modulation |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 95 - Cross Phase Modulation |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 96 - Scattering Processes in optical fibers |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 97 - Stimulated Brillouin Scattering |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 98 - Stimulated Raman Scattering |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 99 - Components - Directional Couplers |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 100 - Components - VOA, Polariser, Polarisation Controllers |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 101 - Components - Isolator |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 102 - Components - Circulator, Definitions |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 103 - Components - Wavelength filters |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 104 - Components - Arrayed Waveguide Gratings, WSS |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 105 - Balanced Detection |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 106 - Polarisation Diverse Coherent Receiver |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 107 - Phase and Polarisation Diverse Coherent Reciever |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 108 - Overview of impairments in coherent optical communication |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 109 - Transceiver impairments - Generation and Compensation |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 110 - Channel Impairments - Generation and Compensation |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 111 - Demo video |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 112 - Introduction to Optical Networks |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 113 - Layers of Optical Network |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 114 - SDH/SONET Layering, Frame Structure |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 115 - Physical Networks Topologies |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 116 - Topology specific Link Design |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 117 - Network Protection |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 118 - Access Networks- PON |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 119 - Optical Interconnects, Data Centers |
| Link |
NOC:Fiber Optic Communication Technology |
Lecture 120 - Optical communication for Wireless Fronthauling |
| Link |
NOC:Image Signal Processing |
Lecture 1 - Course Introduction |
| Link |
NOC:Image Signal Processing |
Lecture 2 - Applications of Image processing |
| Link |
NOC:Image Signal Processing |
Lecture 3 - Applications of Image processing (Continued...) |
| Link |
NOC:Image Signal Processing |
Lecture 4 - Basics of Images |
| Link |
NOC:Image Signal Processing |
Lecture 5 - Shot Noise |
| Link |
NOC:Image Signal Processing |
Lecture 6 - Geometric Transformations |
| Link |
NOC:Image Signal Processing |
Lecture 7 - Geometric Transformations (Continued...) |
| Link |
NOC:Image Signal Processing |
Lecture 8 - Bilinear Interpolation |
| Link |
NOC:Image Signal Processing |
Lecture 9 - Geometric Transformations (Continued...) |
| Link |
NOC:Image Signal Processing |
Lecture 10 - Projective Transformation |
| Link |
NOC:Image Signal Processing |
Lecture 11 - Homography |
| Link |
NOC:Image Signal Processing |
Lecture 12 - Homography - Special cases |
| Link |
NOC:Image Signal Processing |
Lecture 13 - Computing Homography |
| Link |
NOC:Image Signal Processing |
Lecture 14 - RANSAC |
| Link |
NOC:Image Signal Processing |
Lecture 15 - Rotational Homography |
| Link |
NOC:Image Signal Processing |
Lecture 16 - Research Challenges |
| Link |
NOC:Image Signal Processing |
Lecture 17 - Real Aperture Camera |
| Link |
NOC:Image Signal Processing |
Lecture 18 - Real aperture camera - Introduction |
| Link |
NOC:Image Signal Processing |
Lecture 19 - Cricle of confusion |
| Link |
NOC:Image Signal Processing |
Lecture 20 - Depth of field, Linearity |
| Link |
NOC:Image Signal Processing |
Lecture 21 - Space-Invariance |
| Link |
NOC:Image Signal Processing |
Lecture 22 - 2D Convolution |
| Link |
NOC:Image Signal Processing |
Lecture 23 - 2D Convolution |
| Link |
NOC:Image Signal Processing |
Lecture 24 - Blur Models |
| Link |
NOC:Image Signal Processing |
Lecture 25 - Space-variant Blurring |
| Link |
NOC:Image Signal Processing |
Lecture 26 - Shape from X - Introduction |
| Link |
NOC:Image Signal Processing |
Lecture 27 - 2-View Stereo |
| Link |
NOC:Image Signal Processing |
Lecture 28 - Introduction to Shape from Focus |
| Link |
NOC:Image Signal Processing |
Lecture 29 - SFF Principle |
| Link |
NOC:Image Signal Processing |
Lecture 30 - Shape from focus - Gaussian fitting |
| Link |
NOC:Image Signal Processing |
Lecture 31 - Shape from focus - Focus operators |
| Link |
NOC:Image Signal Processing |
Lecture 32 - Shape from Focus - Examples |
| Link |
NOC:Image Signal Processing |
Lecture 33 - Shape from Focus - Tensor Voting |
| Link |
NOC:Image Signal Processing |
Lecture 34 - DFD Principle |
| Link |
NOC:Image Signal Processing |
Lecture 35 - Motion Blur |
| Link |
NOC:Image Signal Processing |
Lecture 36 - Image Transforms - Introduction |
| Link |
NOC:Image Signal Processing |
Lecture 37 - Image Transforms - Motivation |
| Link |
NOC:Image Signal Processing |
Lecture 38 - 1D Unitary Transforms - Introduction |
| Link |
NOC:Image Signal Processing |
Lecture 39 - Extending 1D Unitary Transform to 2D - Motivation |
| Link |
NOC:Image Signal Processing |
Lecture 40 - Extending 1D Unitary Transform to 2D - Example |
| Link |
NOC:Image Signal Processing |
Lecture 41 - Alternative Forms of 2D |
| Link |
NOC:Image Signal Processing |
Lecture 42 - Kronecker Product |
| Link |
NOC:Image Signal Processing |
Lecture 43 - Kronecker Product - (Example Revisited) |
| Link |
NOC:Image Signal Processing |
Lecture 44 - Extending 1D Unitary Transform to 2D - Summary |
| Link |
NOC:Image Signal Processing |
Lecture 45 - 1D DFT to 2D DFT |
| Link |
NOC:Image Signal Processing |
Lecture 46 - 2D DFT Visualization |
| Link |
NOC:Image Signal Processing |
Lecture 47 - 2D DFT - Computation |
| Link |
NOC:Image Signal Processing |
Lecture 48 - 1D DCT - Definition, Motivation |
| Link |
NOC:Image Signal Processing |
Lecture 49 - Relation to DFT |
| Link |
NOC:Image Signal Processing |
Lecture 50 - 2D DCT and Walsh-Haddamard Transform |
| Link |
NOC:Image Signal Processing |
Lecture 51 - Data Dependent Transforms, Karhunen Loeve Transform |
| Link |
NOC:Image Signal Processing |
Lecture 52 - Karhunen-Loeve Transform (KLT) - Concept |
| Link |
NOC:Image Signal Processing |
Lecture 53 - Karhunen-Loeve Transform (KLT) - Applications |
| Link |
NOC:Image Signal Processing |
Lecture 54 - Karhunen-Loeve Transform (KLT) - Applications |
| Link |
NOC:Image Signal Processing |
Lecture 55 - Singular Value Decomposition (SVD) |
| Link |
NOC:Image Signal Processing |
Lecture 56 - Applications of SVD |
| Link |
NOC:Image Signal Processing |
Lecture 57 - Change detection |
| Link |
NOC:Image Signal Processing |
Lecture 58 - Image Thresholding |
| Link |
NOC:Image Signal Processing |
Lecture 59 - Adaptive Local thresholding - Motivation |
| Link |
NOC:Image Signal Processing |
Lecture 60 - Chow-Kaneko Local thresholding |
| Link |
NOC:Image Signal Processing |
Lecture 61 - K-Means Method |
| Link |
NOC:Image Signal Processing |
Lecture 62 - ISODATA Method |
| Link |
NOC:Image Signal Processing |
Lecture 63 - Theory of Histogram Equalization and Modification |
| Link |
NOC:Image Signal Processing |
Lecture 64 - Histogram Equalization example |
| Link |
NOC:Image Signal Processing |
Lecture 65 - Image sequence and Single image filtering in Gaussian noise |
| Link |
NOC:Image Signal Processing |
Lecture 66 - Non-local Means Method |
| Link |
NOC:Image Signal Processing |
Lecture 67 - Non-local Means Filtering (Examples) |
| Link |
NOC:Image Signal Processing |
Lecture 68 - Impulse Noise Generator |
| Link |
NOC:Image Signal Processing |
Lecture 69 - Impulse noise filtering |
| Link |
NOC:Image Signal Processing |
Lecture 70 - Transform Domain Filtering |
| Link |
NOC:Image Signal Processing |
Lecture 71 - Illumination Handling |
| Link |
NOC:Image Signal Processing |
Lecture 72 - Applications of Restoration, and Image Deblurring |
| Link |
NOC:Image Signal Processing |
Lecture 73 - Haddamard's conditions and Least squares solution |
| Link |
NOC:Image Signal Processing |
Lecture 74 - Min-norm solution and Norm of Linear operator |
| Link |
NOC:Image Signal Processing |
Lecture 75 - Numerical stability analysis |
| Link |
NOC:Image Signal Processing |
Lecture 76 - Image Deblurring |
| Link |
NOC:Image Signal Processing |
Lecture 77 - Tikhonov-Miller Regularization |
| Link |
NOC:Image Signal Processing |
Lecture 78 - Conditional Mean as an Estimator |
| Link |
NOC:Image Signal Processing |
Lecture 79 - Linear Estimator |
| Link |
NOC:Image Signal Processing |
Lecture 80 - Wiener Filter |
| Link |
NOC:Image Signal Processing |
Lecture 81 - Fourier Wiener Filter |
| Link |
NOC:Image Signal Processing |
Lecture 82 - 1D Superresolution |
| Link |
NOC:Image Signal Processing |
Lecture 83 - Superresolution Examples |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 1 - Overview of Electric Vehicles in India |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 2 - Can India Drive its EV program Innovatively and Differently and scale? - Part 1 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 3 - Can India Drive its EV program Innovatively and Differently and scale? - Part 2 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 4 - A bit about batteries |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 5 - Charging and Swapping Infrastructure |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 6 - Where will we get Lithium for batteries? |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 7 - EV Subsystems |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 8 - Forces acting when a vehicle move |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 9 - Aerodynamic drag, Rolling Resistance and Uphill Resistance |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 10 - Power and Torque to accelerate |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 11 - Putting it all together - 1 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 12 - Putting it all together - 2 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 13 - Concept of Drive Cycle - 1 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 14 - Concept of Drive Cycle - 2 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 15 - Drive Cycles and Energy used per km - Part 1 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 16 - Drive Cycles and Energy used per km - Part 2 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 17 - EV Subsystem: Design of EV Drive Train - Part 1 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 18 - EV Subsystem: Design of EV Drive Train - Part 2 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 19 - Introduction to Battery Parameters - Part 1 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 20 - Introduction to Battery Parameters - Part 2 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 21 - Why Lithium Ion Battery? - Part 1 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 22 - Why Lithium Ion Battery? - Part 2 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 23 - Batteries in Future |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 24 - Li-Ion Battery Cells |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 25 - SoH and SoC estimation and Self Discharge - Part 1 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 26 - SoH and SoC estimation and Self Discharge - Part 2 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 27 - Battery Pack Development - Part 1 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 28 - Battery Pack Development - Part 2 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 29 - Computation of Effective cost of battery - Part 1 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 30 - Computation of Effective cost of battery - Part 2 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 31 - Charging Batteries |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 32 - Fundamentals of Battery Pack Design |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 33 - Mechanical Design - Part 1 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 34 - Mechanical Design - Part 2 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 35 - Mechanical Design - Part 3 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 36 - Mechanical Design - Part 4 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 37 - Thermal Design - Part 1 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 38 - Thermal Design - Part 2 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 39 - Thermal Design - Part 3 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 40 - Thermal Design - Part 4 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 41 - Electrical Design - Part 1 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 42 - Electrical Design - Part 2 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 43 - Electrical Design - Part 3 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 44 - BMS Design of Electic Vehicle - Part 1 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 45 - BMS Design of Electic Vehicle - Part 2 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 46 - BMS Design of Electic Vehicle - Part 3 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 47 - EV Motors and Controllers - Understanding Flow - Part 1 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 48 - EV Motors and Controllers - Understanding Flow - Part 2 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 49 - Power and Efficiency |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 50 - Torque Production - Part 1 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 51 - Torque Production - Part 2 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 52 - Torque Production - Part 3 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 53 - Speed and Back EMF |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 54 - The d-q Equivalent circuit - Part 1 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 55 - The d-q Equivalent circuit - Part 2 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 56 - Field-oriented Control |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 57 - Three phase AC - Part 1 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 58 - Three phase AC - Part 2 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 59 - Thermal Design - Part 1 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 60 - Thermal Design - Part 2 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 61 - Engineering Considerations - Part 1 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 62 - Engineering Considerations - Part 2 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 63 - Future Frontiers |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 64 - EV Chargers: Introduction |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 65 - EV Chargers: Slow or Fast - Part 1 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 66 - EV Chargers: Slow or Fast - Part 2 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 67 - Battery Swapping |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 68 - Standardization and On board Chargers |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 69 - Public Chargers - Part 1 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 70 - Public Chargers - Part 2 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 71 - Bulk Chargers/Swap Stations - Part 1 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 72 - Bulk Chargers/Swap Stations - Part 2 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 73 - Economics of Public Chargers in context |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 74 - Analytics - Part 1 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 75 - Analytics - Part 2 |
| Link |
NOC:Fundamentals of Electric Vehicles: Technology and Economics |
Lecture 76 - Course Summary |
| Link |
NOC:Applied Linear Algebra |
Lecture 1 - Introduction to the Course |
| Link |
NOC:Applied Linear Algebra |
Lecture 2 - Vector Spaces: Introduction |
| Link |
NOC:Applied Linear Algebra |
Lecture 3 - Linear Combinations and Span |
| Link |
NOC:Applied Linear Algebra |
Lecture 4 - Subspaces, Linear Dependence and Independence |
| Link |
NOC:Applied Linear Algebra |
Lecture 5 - Basis and Dimension |
| Link |
NOC:Applied Linear Algebra |
Lecture 6 - Sums, Direct Sums and Gaussian Elimination |
| Link |
NOC:Applied Linear Algebra |
Lecture 7 - Linear Maps and Matrices |
| Link |
NOC:Applied Linear Algebra |
Lecture 8 - Null space, Range, Fundamental theorem of linear maps |
| Link |
NOC:Applied Linear Algebra |
Lecture 9 - Column space, null space and rank of a matrix |
| Link |
NOC:Applied Linear Algebra |
Lecture 10 - Algebraic operations on linear maps |
| Link |
NOC:Applied Linear Algebra |
Lecture 11 - Invertible maps, Isomorphism, Operators |
| Link |
NOC:Applied Linear Algebra |
Lecture 12 - Solving Linear Equations |
| Link |
NOC:Applied Linear Algebra |
Lecture 13 - Elementary Row Operations |
| Link |
NOC:Applied Linear Algebra |
Lecture 14 - Translates of a subspace, Quotient Spaces |
| Link |
NOC:Applied Linear Algebra |
Lecture 15 - Row space and rank of a matrix |
| Link |
NOC:Applied Linear Algebra |
Lecture 16 - Determinants |
| Link |
NOC:Applied Linear Algebra |
Lecture 17 - Coordinates and linear maps under a change of basis |
| Link |
NOC:Applied Linear Algebra |
Lecture 18 - Simplifying matrices of linear maps by choice of basis |
| Link |
NOC:Applied Linear Algebra |
Lecture 19 - Polynomials and Roots |
| Link |
NOC:Applied Linear Algebra |
Lecture 20 - Invariant subspaces, Eigenvalues, Eigenvectors |
| Link |
NOC:Applied Linear Algebra |
Lecture 21 - More on Eigenvalues, Eigenvectors, Diagonalization |
| Link |
NOC:Applied Linear Algebra |
Lecture 22 - Eigenvalues, Eigenvectors and Upper Triangularization |
| Link |
NOC:Applied Linear Algebra |
Lecture 23 - Properties of Eigenvalues |
| Link |
NOC:Applied Linear Algebra |
Lecture 24 - Linear state space equations and system stability |
| Link |
NOC:Applied Linear Algebra |
Lecture 25 - Discrete-time Linear Systems and Discrete Fourier Transforms |
| Link |
NOC:Applied Linear Algebra |
Lecture 26 - Sequences and counting paths in graphs |
| Link |
NOC:Applied Linear Algebra |
Lecture 27 - PageRank Algorithm |
| Link |
NOC:Applied Linear Algebra |
Lecture 28 - Dot product and length in Cn, Inner product and norm in V over F |
| Link |
NOC:Applied Linear Algebra |
Lecture 29 - Orthonormal basis and Gram-Schmidt orthogonalisation |
| Link |
NOC:Applied Linear Algebra |
Lecture 30 - Linear Functionals, Orthogonal Complements |
| Link |
NOC:Applied Linear Algebra |
Lecture 31 - Orthogonal Projection |
| Link |
NOC:Applied Linear Algebra |
Lecture 32 - Projection and distance from a subspace |
| Link |
NOC:Applied Linear Algebra |
Lecture 33 - Linear equations, Least squares solutions and Linear regression |
| Link |
NOC:Applied Linear Algebra |
Lecture 34 - Minimum Mean Squared Error Estimation |
| Link |
NOC:Applied Linear Algebra |
Lecture 35 - Adjoint of a linear map |
| Link |
NOC:Applied Linear Algebra |
Lecture 36 - Properties of Adjoint of a Linear Map |
| Link |
NOC:Applied Linear Algebra |
Lecture 37 - Adjoint of an Operator and Operator-Adjoint Product |
| Link |
NOC:Applied Linear Algebra |
Lecture 38 - Self-adjoint Operator |
| Link |
NOC:Applied Linear Algebra |
Lecture 39 - Normal Operators |
| Link |
NOC:Applied Linear Algebra |
Lecture 40 - Complex Spectral Theorem |
| Link |
NOC:Applied Linear Algebra |
Lecture 41 - Real Spectral Theorem |
| Link |
NOC:Applied Linear Algebra |
Lecture 42 - Positive Operators |
| Link |
NOC:Applied Linear Algebra |
Lecture 43 - Quadratic Forms, Matrix Norms and Optimization |
| Link |
NOC:Applied Linear Algebra |
Lecture 44 - Isometries |
| Link |
NOC:Applied Linear Algebra |
Lecture 45 - Classification of Operators |
| Link |
NOC:Applied Linear Algebra |
Lecture 46 - Singular Values and Vectors of a Linear Map |
| Link |
NOC:Applied Linear Algebra |
Lecture 47 - Singular Value Decomposition |
| Link |
NOC:Applied Linear Algebra |
Lecture 48 - Polar decomposition and some applications of SVD |
| Link |
NOC:Basic Electrical Circuits |
Lecture 1 - Preliminaries |
| Link |
NOC:Basic Electrical Circuits |
Lecture 2 - Current |
| Link |
NOC:Basic Electrical Circuits |
Lecture 3 - Voltage |
| Link |
NOC:Basic Electrical Circuits |
Lecture 4 - Electrical elements and circuits |
| Link |
NOC:Basic Electrical Circuits |
Lecture 5 - Kirchhoff's current law (KCL) |
| Link |
NOC:Basic Electrical Circuits |
Lecture 6 - Kirchhoff's voltage law (KVL) |
| Link |
NOC:Basic Electrical Circuits |
Lecture 7 - Voltage source |
| Link |
NOC:Basic Electrical Circuits |
Lecture 8 - Current source |
| Link |
NOC:Basic Electrical Circuits |
Lecture 9 - Resistor |
| Link |
NOC:Basic Electrical Circuits |
Lecture 10 - Capacitor |
| Link |
NOC:Basic Electrical Circuits |
Lecture 11 - Inductor |
| Link |
NOC:Basic Electrical Circuits |
Lecture 12 - Mutual inductor |
| Link |
NOC:Basic Electrical Circuits |
Lecture 13 - Linearity of elements |
| Link |
NOC:Basic Electrical Circuits |
Lecture 14 - Series connection-Voltage sources in series |
| Link |
NOC:Basic Electrical Circuits |
Lecture 15 - Series connection of R, L, C, current source |
| Link |
NOC:Basic Electrical Circuits |
Lecture 16 - Elements in parallel |
| Link |
NOC:Basic Electrical Circuits |
Lecture 17 - Current source in series with an element; Voltage source in parallel with an element |
| Link |
NOC:Basic Electrical Circuits |
Lecture 18 - Extreme cases: Open and short circuits |
| Link |
NOC:Basic Electrical Circuits |
Lecture 19 - Summary |
| Link |
NOC:Basic Electrical Circuits |
Lecture 20 - Voltage controlled voltage source (VCVS) |
| Link |
NOC:Basic Electrical Circuits |
Lecture 21 - Voltage controlled current source (VCCS) |
| Link |
NOC:Basic Electrical Circuits |
Lecture 22 - Current controlled voltage source (CCVS) |
| Link |
NOC:Basic Electrical Circuits |
Lecture 23 - Current controlled current source (CCCS) |
| Link |
NOC:Basic Electrical Circuits |
Lecture 24 - Realizing a resistance using a VCCS or CCCS |
| Link |
NOC:Basic Electrical Circuits |
Lecture 25 - Scaling an element's value using controlled sources |
| Link |
NOC:Basic Electrical Circuits |
Lecture 26 - Example calculation |
| Link |
NOC:Basic Electrical Circuits |
Lecture 27 - Power and energy absorbed by electrical elements |
| Link |
NOC:Basic Electrical Circuits |
Lecture 28 - Power and energy in a resistor |
| Link |
NOC:Basic Electrical Circuits |
Lecture 29 - Power and energy in a capacitor |
| Link |
NOC:Basic Electrical Circuits |
Lecture 30 - Power and energy in an inductor |
| Link |
NOC:Basic Electrical Circuits |
Lecture 31 - Power and energy in a voltage source |
| Link |
NOC:Basic Electrical Circuits |
Lecture 32 - Power and energy in a current source |
| Link |
NOC:Basic Electrical Circuits |
Lecture 33 - Goals of circuit analysis |
| Link |
NOC:Basic Electrical Circuits |
Lecture 34 - Number of independent KCL equations |
| Link |
NOC:Basic Electrical Circuits |
Lecture 35 - Number of independent KVL equations and branch relationships |
| Link |
NOC:Basic Electrical Circuits |
Lecture 36 - Analysis of circuits with a single independent source |
| Link |
NOC:Basic Electrical Circuits |
Lecture 37 - Analysis of circuits with multiple independent sources using superposition |
| Link |
NOC:Basic Electrical Circuits |
Lecture 38 - Superposition: Example |
| Link |
NOC:Basic Electrical Circuits |
Lecture 39 - What is nodal analysis |
| Link |
NOC:Basic Electrical Circuits |
Lecture 40 - Setting up nodal analysis equations |
| Link |
NOC:Basic Electrical Circuits |
Lecture 41 - Structure of the conductance matrix |
| Link |
NOC:Basic Electrical Circuits |
Lecture 42 - How do elements circuit appear in the nodal analysis formulation |
| Link |
NOC:Basic Electrical Circuits |
Lecture 43 - Completely solving the circuit starting from nodal analysis |
| Link |
NOC:Basic Electrical Circuits |
Lecture 44 - Nodal analysis example |
| Link |
NOC:Basic Electrical Circuits |
Lecture 45 - Matrix inversion basics |
| Link |
NOC:Basic Electrical Circuits |
Lecture 46 - Nodal analysis with independent voltage sources |
| Link |
NOC:Basic Electrical Circuits |
Lecture 47 - Supernode for nodal analysis with independent voltage sources |
| Link |
NOC:Basic Electrical Circuits |
Lecture 48 - Nodal analysis with VCCS |
| Link |
NOC:Basic Electrical Circuits |
Lecture 49 - Nodal analysis with VCVS |
| Link |
NOC:Basic Electrical Circuits |
Lecture 50 - Nodal analysis with CCVS |
| Link |
NOC:Basic Electrical Circuits |
Lecture 51 - Nodal analysis with CCCS |
| Link |
NOC:Basic Electrical Circuits |
Lecture 52 - Nodal analysis summary |
| Link |
NOC:Basic Electrical Circuits |
Lecture 53 - Planar circuits |
| Link |
NOC:Basic Electrical Circuits |
Lecture 54 - Mesh currents and their relationship to branch currents |
| Link |
NOC:Basic Electrical Circuits |
Lecture 55 - Mesh analysis |
| Link |
NOC:Basic Electrical Circuits |
Lecture 56 - Mesh analysis with independent current sources-Supermesh |
| Link |
NOC:Basic Electrical Circuits |
Lecture 57 - Mesh analysis with current controlled voltage sources |
| Link |
NOC:Basic Electrical Circuits |
Lecture 58 - Mesh analysis with current controlled current sources |
| Link |
NOC:Basic Electrical Circuits |
Lecture 59 - Mesh analysis using voltage controlled sources |
| Link |
NOC:Basic Electrical Circuits |
Lecture 60 - Nodal analysis versus Mesh analysis |
| Link |
NOC:Basic Electrical Circuits |
Lecture 61 - Superposition theorem |
| Link |
NOC:Basic Electrical Circuits |
Lecture 62 - Pushing a voltage source through a node |
| Link |
NOC:Basic Electrical Circuits |
Lecture 63 - Splitting a current source |
| Link |
NOC:Basic Electrical Circuits |
Lecture 64 - Substitution theorem: Current source |
| Link |
NOC:Basic Electrical Circuits |
Lecture 65 - Substitution theorem: Voltage source |
| Link |
NOC:Basic Electrical Circuits |
Lecture 66 - Substituting a voltage or current source with a resistor |
| Link |
NOC:Basic Electrical Circuits |
Lecture 67 - Extensions to Superposition and Substitution theorem |
| Link |
NOC:Basic Electrical Circuits |
Lecture 68 - Thevenin's theorem |
| Link |
NOC:Basic Electrical Circuits |
Lecture 69 - Worked out example: Thevenin's theorem |
| Link |
NOC:Basic Electrical Circuits |
Lecture 70 - Norton's theorem |
| Link |
NOC:Basic Electrical Circuits |
Lecture 71 - Worked out example: Norton's theorem |
| Link |
NOC:Basic Electrical Circuits |
Lecture 72 - Maximum power transfer theorem |
| Link |
NOC:Basic Electrical Circuits |
Lecture 73 - Preliminaries |
| Link |
NOC:Basic Electrical Circuits |
Lecture 74 - Two port parameters |
| Link |
NOC:Basic Electrical Circuits |
Lecture 75 - y parameters |
| Link |
NOC:Basic Electrical Circuits |
Lecture 76 - y parameters: Examples |
| Link |
NOC:Basic Electrical Circuits |
Lecture 77 - z parameters |
| Link |
NOC:Basic Electrical Circuits |
Lecture 78 - z parameters: Examples |
| Link |
NOC:Basic Electrical Circuits |
Lecture 79 - h parameters |
| Link |
NOC:Basic Electrical Circuits |
Lecture 80 - h parameters: Examples |
| Link |
NOC:Basic Electrical Circuits |
Lecture 81 - g parameters |
| Link |
NOC:Basic Electrical Circuits |
Lecture 82 - g parameters: Examples |
| Link |
NOC:Basic Electrical Circuits |
Lecture 83 - Calculations with a two-port element |
| Link |
NOC:Basic Electrical Circuits |
Lecture 84 - Calculations with a two-port element |
| Link |
NOC:Basic Electrical Circuits |
Lecture 85 - Degenerate cases |
| Link |
NOC:Basic Electrical Circuits |
Lecture 86 - Relationships between different two-port parameters |
| Link |
NOC:Basic Electrical Circuits |
Lecture 87 - Equivalent circuit representation of two-ports |
| Link |
NOC:Basic Electrical Circuits |
Lecture 88 - Reciprocity |
| Link |
NOC:Basic Electrical Circuits |
Lecture 89 - Proof of reciprocity of resistive two-ports |
| Link |
NOC:Basic Electrical Circuits |
Lecture 90 - Proof for 4-terminal two-ports |
| Link |
NOC:Basic Electrical Circuits |
Lecture 91 - Reciprocity in terms of different two-port parameters |
| Link |
NOC:Basic Electrical Circuits |
Lecture 92 - Reciprocity in circuits containing controlled sources |
| Link |
NOC:Basic Electrical Circuits |
Lecture 93 - Examples |
| Link |
NOC:Basic Electrical Circuits |
Lecture 94 - Feedback amplifier using an opamp |
| Link |
NOC:Basic Electrical Circuits |
Lecture 95 - Ideal opamp |
| Link |
NOC:Basic Electrical Circuits |
Lecture 96 - Negative feedback around the opamp |
| Link |
NOC:Basic Electrical Circuits |
Lecture 97 - Finding opamp sign for negative feedback |
| Link |
NOC:Basic Electrical Circuits |
Lecture 98 - Example: Determining opamp sign for negative feedback |
| Link |
NOC:Basic Electrical Circuits |
Lecture 99 - Analysis of circuits with opamps |
| Link |
NOC:Basic Electrical Circuits |
Lecture 100 - More on opamps: Example circuits and additional topics |
| Link |
NOC:Basic Electrical Circuits |
Lecture 101 - Inverting amplifier |
| Link |
NOC:Basic Electrical Circuits |
Lecture 102 - Summing amplifier |
| Link |
NOC:Basic Electrical Circuits |
Lecture 103 - Instrumentation amplifier |
| Link |
NOC:Basic Electrical Circuits |
Lecture 104 - Negative resistance |
| Link |
NOC:Basic Electrical Circuits |
Lecture 105 - Finding opamp signs for negative feedback-circuits with multiple opamps |
| Link |
NOC:Basic Electrical Circuits |
Lecture 106 - Opamp supply voltages and saturation |
| Link |
NOC:Basic Electrical Circuits |
Lecture 107 - KCL with an opamp and supply currents |
| Link |
NOC:Basic Electrical Circuits |
Lecture 108 - Circuits with storage elements (capacitors and inductors) |
| Link |
NOC:Basic Electrical Circuits |
Lecture 109 - First order circuit with zero input-natural response |
| Link |
NOC:Basic Electrical Circuits |
Lecture 110 - First order RC circuit with zero input-Example |
| Link |
NOC:Basic Electrical Circuits |
Lecture 111 - First order circuit with a constant input |
| Link |
NOC:Basic Electrical Circuits |
Lecture 112 - General form of the first order circuit response |
| Link |
NOC:Basic Electrical Circuits |
Lecture 113 - First order RC circuit with a constant input-Example |
| Link |
NOC:Basic Electrical Circuits |
Lecture 114 - First order circuit with piecewise constant input |
| Link |
NOC:Basic Electrical Circuits |
Lecture 115 - First order circuit with piecewise constant input-Example |
| Link |
NOC:Basic Electrical Circuits |
Lecture 116 - First order circuit-Response of arbitrary circuit variables |
| Link |
NOC:Basic Electrical Circuits |
Lecture 117 - Summary: Computing first order circuit response |
| Link |
NOC:Basic Electrical Circuits |
Lecture 118 - Does a capacitor block DC? |
| Link |
NOC:Basic Electrical Circuits |
Lecture 119 - Finding the order of a circuit |
| Link |
NOC:Basic Electrical Circuits |
Lecture 120 - First order RC circuits with discontinuous capacitor voltages |
| Link |
NOC:Basic Electrical Circuits |
Lecture 121 - Summary: Computing first order circuit response with discontinuities |
| Link |
NOC:Basic Electrical Circuits |
Lecture 122 - First order RL circuits |
| Link |
NOC:Basic Electrical Circuits |
Lecture 123 - First order RL circuit with discontinuous inductor current-Example |
| Link |
NOC:Basic Electrical Circuits |
Lecture 124 - First order RC circuit with an exponential input |
| Link |
NOC:Basic Electrical Circuits |
Lecture 125 - First order RC response to its own natural response |
| Link |
NOC:Basic Electrical Circuits |
Lecture 126 - First order RC response to a sinusoidal input |
| Link |
NOC:Basic Electrical Circuits |
Lecture 127 - First order RC response to a sinusoidal input-via the complex exponential |
| Link |
NOC:Basic Electrical Circuits |
Lecture 128 - Summary: Linear circuit response to sinusoidal input via the complex exponential |
| Link |
NOC:Basic Electrical Circuits |
Lecture 129 - Three methods of calculating the sinusoidal steady state response |
| Link |
NOC:Basic Electrical Circuits |
Lecture 130 - Calculating the total response including initial conditions |
| Link |
NOC:Basic Electrical Circuits |
Lecture 131 - Why are sinusoids used in measurement? |
| Link |
NOC:Basic Electrical Circuits |
Lecture 132 - Second order system natural response |
| Link |
NOC:Basic Electrical Circuits |
Lecture 133 - Second order system as a cascade of two first order systems |
| Link |
NOC:Basic Electrical Circuits |
Lecture 134 - Second order system natural response-critically damped and underdamped |
| Link |
NOC:Basic Electrical Circuits |
Lecture 135 - Generalized form of a second order system |
| Link |
NOC:Basic Electrical Circuits |
Lecture 136 - Numerical example |
| Link |
NOC:Basic Electrical Circuits |
Lecture 137 - Series and parallel RLC circuits |
| Link |
NOC:Basic Electrical Circuits |
Lecture 138 - Forced response of a second order system |
| Link |
NOC:Basic Electrical Circuits |
Lecture 139 - Steady state response calculation and Phasors |
| Link |
NOC:Basic Electrical Circuits |
Lecture 140 - Phasors (Continued...) |
| Link |
NOC:Basic Electrical Circuits |
Lecture 141 - Magnitude and Phase plots |
| Link |
NOC:Basic Electrical Circuits |
Lecture 142 - Magnitude and phase plotes of a second order system |
| Link |
NOC:Basic Electrical Circuits |
Lecture 143 - Maximum power transfer and Conjugate matching |
| Link |
NOC:Optical Fiber Sensors |
Lecture 1 - Introduction to optical sensors |
| Link |
NOC:Optical Fiber Sensors |
Lecture 2 - Different types of optical sensors |
| Link |
NOC:Optical Fiber Sensors |
Lecture 3 - Overview of distributed sensors |
| Link |
NOC:Optical Fiber Sensors |
Lecture 4 - Optical sensors system |
| Link |
NOC:Optical Fiber Sensors |
Lecture 5 - Optical sources |
| Link |
NOC:Optical Fiber Sensors |
Lecture 6 - Optical receivers - 1 |
| Link |
NOC:Optical Fiber Sensors |
Lecture 7 - Optical receivers - 2 |
| Link |
NOC:Optical Fiber Sensors |
Lecture 8 - Optical receivers - 3 |
| Link |
NOC:Optical Fiber Sensors |
Lecture 9 - Optical receiver design |
| Link |
NOC:Optical Fiber Sensors |
Lecture 10 - Noise Analysis |
| Link |
NOC:Optical Fiber Sensors |
Lecture 11 - Sensor Performance characteristics |
| Link |
NOC:Optical Fiber Sensors |
Lecture 12 - Noise Mitigation Techniques |
| Link |
NOC:Optical Fiber Sensors |
Lecture 13 - Lock in detection |
| Link |
NOC:Optical Fiber Sensors |
Lecture 14 - Amplitude modulated sensors - 1 |
| Link |
NOC:Optical Fiber Sensors |
Lecture 15 - Gas absoprtion spectroscopy |
| Link |
NOC:Optical Fiber Sensors |
Lecture 16 - Amplitude modulated sensors - 2 |
| Link |
NOC:Optical Fiber Sensors |
Lecture 17 - Amplitude modulated sensors - 3 |
| Link |
NOC:Optical Fiber Sensors |
Lecture 18 - Amplitude modulated sensors - 4 |
| Link |
NOC:Optical Fiber Sensors |
Lecture 19 - Problem Discussion |
| Link |
NOC:Optical Fiber Sensors |
Lecture 20 - Pulse-oximeter |
| Link |
NOC:Optical Fiber Sensors |
Lecture 21 - Phase modulated sensors - 1 |
| Link |
NOC:Optical Fiber Sensors |
Lecture 22 - Phase modulated sensors - 2 |
| Link |
NOC:Optical Fiber Sensors |
Lecture 23 - Phase modulated Sensors - 3 |
| Link |
NOC:Optical Fiber Sensors |
Lecture 24 - Phase modulated sensors - 4 |
| Link |
NOC:Optical Fiber Sensors |
Lecture 25 - Phase modulated sensors - 5 |
| Link |
NOC:Optical Fiber Sensors |
Lecture 26 - Phase modulated sensors - 6 |
| Link |
NOC:Optical Fiber Sensors |
Lecture 27 - Phase modulated sensors - 7 |
| Link |
NOC:Optical Fiber Sensors |
Lecture 28 - Phase modulated sensors - 8 |
| Link |
NOC:Optical Fiber Sensors |
Lecture 29 - Phase modulated sensors - 9 |
| Link |
NOC:Optical Fiber Sensors |
Lecture 30 - Phase modulated sensors - 10 |
| Link |
NOC:Optical Fiber Sensors |
Lecture 31 - Phase modulated Sensors - 11 |
| Link |
NOC:Optical Fiber Sensors |
Lecture 32 - Wavelength modulated sensors - 1 |
| Link |
NOC:Optical Fiber Sensors |
Lecture 33 - Wavelength modulated sensors - 2 |
| Link |
NOC:Optical Fiber Sensors |
Lecture 34 - Wavelength modulated sensors - 3 |
| Link |
NOC:Optical Fiber Sensors |
Lecture 35 - Wavelength modulated sensors - 4 |
| Link |
NOC:Optical Fiber Sensors |
Lecture 36 - Wavelength modulated sensors - 5 |
| Link |
NOC:Optical Fiber Sensors |
Lecture 37 - Wavelength modulated sensors - 6 |
| Link |
NOC:Optical Fiber Sensors |
Lecture 38 - Wavelength modulated sensors - 7 |
| Link |
NOC:Optical Fiber Sensors |
Lecture 39 - Wavelength modulated sensors - 8 |
| Link |
NOC:Optical Fiber Sensors |
Lecture 40 - Polarization modulated sensors - 1 |
| Link |
NOC:Optical Fiber Sensors |
Lecture 41 - Polarization modulated sensors - 2 |
| Link |
NOC:Optical Fiber Sensors |
Lecture 42 - Polarization modulated sensors - 3 |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 1 - Course Introduction and Motivation |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 2 - Kirchoff's Current and Voltage Laws, and the Incidence Matrix |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 3 - Power Conservation and Tellegen's Theorem |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 4 - Intuition behind Tellegen's Theorem |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 5 - Tellegen's Theorem and reciprocity in linear resistive networks |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 6 - Why is reciprocity useful in practice? |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 7 - Inter-reciprocity in linear time-invariant networks |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 8 - Inter-reciprocity in linear time-invariant networks (Continued...) |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 9 - Inter-reciprocity in networks with ideal operational amplifiers |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 10 - Review of Modified Nodal Analysis (MNA) of linear networks |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 11 - MNA stamps of controlled sources - the VCCS and VCVS |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 12 - MNA stamps of controlled sources - the CCCS and CCVS |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 13 - Inter-reciprocity in linear networks - using the MNA stamp approach |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 14 - The Adjoint Network |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 15 - MNA stamp of an ideal opamp |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 16 - Properties of circuits with multiple ideal opamps |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 17 - Introduction to noise in electrical networks |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 18 - Noise processed by a linear time-invariant system |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 19 - kT/C noise in a sample-and-hold circuit |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 20 - Noise in RLC networks |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 21 - Total integrated noise in RLC Networks |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 22 - Bode's Noise Theorem - Frequency domain |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 23 - Input referred noise in electrical networks - Part 1 |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 24 - Input referred noise in electrical networks - Part 2 |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 25 - Input referred noise and the noise factor |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 26 - Noise Factor Examples |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 27 - Motivation to learn about time-varying circuits and systems - Part 1 |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 28 - Motivation to learn about time-varying circuits and systems - Part 2 |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 29 - Convolution integral for LTV systems |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 30 - Frequency response of an LTV system |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 31 - LTV system example : Time-varying RC filter |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 32 - Linear Periodically Time-Varying Systems (LPTV) |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 33 - Response of an LPTV system to a complex exponential input |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 34 - Harmonic Transfer Functions |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 35 - Zadeh expansion of an LPTV system |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 36 - MNA analysis of LPTV networks |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 37 - MNA stamp of a periodically time varying conductance |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 38 - MNA stamp of a capacitor and a voltage source in an LPTV network |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 39 - Analysis of an example LPTV network - Part 1 |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 40 - Analysis of an example LPTV network - Part 2 |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 41 - LPTV network analysis, RC filter, time-varying |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 42 - Impedance and admittance in LTI and LPTV networks |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 43 - Thevenin and Norton's Theorems for LPTV networks |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 44 - The N-path principle |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 45 - N-path example |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 46 - Time-domain intuition of the N-path principle |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 47 - N-path example: Time-Interleaved ADCs |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 48 - Dc-dc converter as an LPTV system |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 49 - N-path principle: Multiphase dc-dc converter |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 50 - The N-path filter |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 51 - Computing H_0(j2\pi f_s) for a 4-path filter |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 52 - Input impedance of the 4-path filter at f_s |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 53 - Computing H_0(j2\pi 2 f_s) for a 4-path filter |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 54 - Determining H_0 for input frequency deviations from f_s |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 55 - Reciprocity and Inter-reciprocity in LPTV networks : Part 1 |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 56 - Reciprocity and Inter-reciprocity in LPTV networks : Part 2, the transfer-function theorem |
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NOC:Introduction to Time - Varying Electrical Networks |
Lecture 57 - Why is the transfer-function theorem important? |
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NOC:Introduction to Time - Varying Electrical Networks |
Lecture 58 - The frequency-reversal theorem for inter-reciprocal (adjoint) LPTV networks : introduction |
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NOC:Introduction to Time - Varying Electrical Networks |
Lecture 59 - The frequency-reversal theorem for inter-reciprocal (adjoint) LPTV networks : derivation |
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NOC:Introduction to Time - Varying Electrical Networks |
Lecture 60 - Why is the frequency-reversal theorem important? |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 61 - Inter-reciprocity in signal-flow graphs |
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NOC:Introduction to Time - Varying Electrical Networks |
Lecture 62 - Applications of inter-reciprocity: analysis of chopped amplifiers |
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NOC:Introduction to Time - Varying Electrical Networks |
Lecture 63 - Applications of inter-reciprocity: analysis of chopped amplifiers (Continued...) |
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NOC:Introduction to Time - Varying Electrical Networks |
Lecture 64 - Applications of inter-reciprocity: chopping with square-wave modulation |
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NOC:Introduction to Time - Varying Electrical Networks |
Lecture 65 - Applications of inter-reciprocity: the switched-RC network |
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NOC:Introduction to Time - Varying Electrical Networks |
Lecture 66 - Time-domain implications of inter-reciprocity and the adjoint network |
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NOC:Introduction to Time - Varying Electrical Networks |
Lecture 67 - Time-domain implications of inter-reciprocity and the adjoint network : Example calculation |
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NOC:Introduction to Time - Varying Electrical Networks |
Lecture 68 - LPTV networks with sampled outputs: Switched capacitor circuits |
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NOC:Introduction to Time - Varying Electrical Networks |
Lecture 69 - LPTV networks with sampled outputs: A continuous-time delta-sigma data converter |
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NOC:Introduction to Time - Varying Electrical Networks |
Lecture 70 - LPTV networks with sampled outputs: The equivalent LTI filter |
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NOC:Introduction to Time - Varying Electrical Networks |
Lecture 71 - Finding the equivalent LTI filter of a sampled LPTV system : example |
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NOC:Introduction to Time - Varying Electrical Networks |
Lecture 72 - Equivalent LTI filter for a switched-RC network |
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NOC:Introduction to Time - Varying Electrical Networks |
Lecture 73 - Finding the equivalent LTI filter of a sampled LPTV system : example of a continuous-time delta-sigma modulator |
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NOC:Introduction to Time - Varying Electrical Networks |
Lecture 74 - Finding the equivalent LTI filter of a sampled LPTV system with offset sampling |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 75 - LPTV networks driven by modulated inputs |
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NOC:Introduction to Time - Varying Electrical Networks |
Lecture 76 - Introduction to noise in LPTV Networks |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 77 - Noise in LPTV networks with sampled outputs |
| Link |
NOC:Introduction to Time - Varying Electrical Networks |
Lecture 78 - Total integrated noise in networks with R,L,C and periodically operated switches |
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NOC:Digital System Design |
Lecture 1 - Introduction |
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NOC:Digital System Design |
Lecture 2 - Analog vs Digital |
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NOC:Digital System Design |
Lecture 3 - Binary number system - 1 |
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NOC:Digital System Design |
Lecture 4 - Binary number system - 2 |
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NOC:Digital System Design |
Lecture 5 - Negative number representation - 1 |
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NOC:Digital System Design |
Lecture 6 - Negative number representation - 2 |
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NOC:Digital System Design |
Lecture 7 - Other number systems |
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NOC:Digital System Design |
Lecture 8 - Floating point numbers - 1 |
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NOC:Digital System Design |
Lecture 9 - Floating point numbers - 2 |
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NOC:Digital System Design |
Lecture 10 - Floating point numbers - 3 |
| Link |
NOC:Digital System Design |
Lecture 11 - Floating point numbers - 4 |
| Link |
NOC:Digital System Design |
Lecture 12 - Floating point numbers - 5 |
| Link |
NOC:Digital System Design |
Lecture 13 - Boolean functions |
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NOC:Digital System Design |
Lecture 14 - Boolean Algebra |
| Link |
NOC:Digital System Design |
Lecture 15 - SOP and POS Representation |
| Link |
NOC:Digital System Design |
Lecture 16 - Algebraic simplifications |
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NOC:Digital System Design |
Lecture 17 - Canonical form |
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NOC:Digital System Design |
Lecture 18 - Boolean minimization using K-Maps |
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NOC:Digital System Design |
Lecture 19 - More Logic gates |
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NOC:Digital System Design |
Lecture 20 - Hardware description language:Verilog |
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NOC:Digital System Design |
Lecture 21 - Verilog simulation demo |
| Link |
NOC:Digital System Design |
Lecture 22 - K-maps |
| Link |
NOC:Digital System Design |
Lecture 23 - QM-method |
| Link |
NOC:Digital System Design |
Lecture 24 - Area delay model |
| Link |
NOC:Digital System Design |
Lecture 25 - Multi-level logic |
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NOC:Digital System Design |
Lecture 26 - Multiplexer |
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NOC:Digital System Design |
Lecture 27 - Four state logic |
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NOC:Digital System Design |
Lecture 28 - Decoders - 1 |
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NOC:Digital System Design |
Lecture 29 - Decoders - 2 |
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NOC:Digital System Design |
Lecture 30 - Encoders |
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NOC:Digital System Design |
Lecture 31 - Programmable hardware |
| Link |
NOC:Digital System Design |
Lecture 32 - Ripple carry adder |
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NOC:Digital System Design |
Lecture 33 - Carry look ahead adder |
| Link |
NOC:Digital System Design |
Lecture 34 - Modeling BUS in Verilog |
| Link |
NOC:Digital System Design |
Lecture 35 - Fast adder:Carry select adder |
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NOC:Digital System Design |
Lecture 36 - Multiple operand adder |
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NOC:Digital System Design |
Lecture 37 - Multiplication |
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NOC:Digital System Design |
Lecture 38 - Iterative circuits - 1 |
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NOC:Digital System Design |
Lecture 39 - Iterative circuits - 2 |
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NOC:Digital System Design |
Lecture 40 - Introduction to sequential circuits |
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NOC:Digital System Design |
Lecture 41 - Latches |
| Link |
NOC:Digital System Design |
Lecture 42 - D-Flip-flops |
| Link |
NOC:Digital System Design |
Lecture 43 - More Flip-flops |
| Link |
NOC:Digital System Design |
Lecture 44 - Counters |
| Link |
NOC:Digital System Design |
Lecture 45 - Verilog-Behavior model - 1 |
| Link |
NOC:Digital System Design |
Lecture 46 - Verilog-Behavior model - 2 |
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NOC:Digital System Design |
Lecture 47 - Registers - 1 |
| Link |
NOC:Digital System Design |
Lecture 48 - Registers - 2 |
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NOC:Digital System Design |
Lecture 49 - Memory |
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NOC:Digital System Design |
Lecture 50 - Sequential circuit analysis |
| Link |
NOC:Digital System Design |
Lecture 51 - Derivation state graph |
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NOC:Digital System Design |
Lecture 52 - Sequence detector: Example 1 |
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NOC:Digital System Design |
Lecture 53 - Sequence detector: Example 2 |
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NOC:Digital System Design |
Lecture 54 - State machine reduction |
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NOC:Digital System Design |
Lecture 55 - State encoding |
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NOC:Digital System Design |
Lecture 56 - Multi-cycle adder design |
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NOC:Digital System Design |
Lecture 57 - Pipelined adder design |
| Link |
NOC:Digital System Design |
Lecture 58 - Multiplication design |
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NOC:Digital System Design |
Lecture 59 - Division hardware design |
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NOC:Digital System Design |
Lecture 60 - Interacting state machines |
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NOC:Digital System Design |
Lecture 61 - Register Transfer Level design |
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NOC:Digital System Design |
Lecture 62 - GCD computer at RTL Level |
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NOC:Digital System Design |
Lecture 63 - RTL Design - Bubble sort |
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NOC:Digital System Design |
Lecture 64 - RTL Design - Traffic light controller |
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NOC:Digital System Design |
Lecture 65 - FPGA |
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NOC:Digital System Design |
Lecture 66 - Xilinx CLB |
| Link |
NOC:Digital System Design |
Lecture 67 - FPGA - Design flow |
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NOC:Digital System Design |
Lecture 68 - FPGA design demo |
| Link |
NOC:Digital System Design |
Lecture 69 - Introduction to ASIC design flow - Part 1 |
| Link |
NOC:Digital System Design |
Lecture 70 - Introduction to ASIC design flow - Part 2 |
| Link |
NOC:Digital System Design |
Lecture 71 - Future directions |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 1 - Review of Probability Theory: Random Variable |
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NOC:Stochastic Modeling and the Theory of Queues |
Lecture 2 - Sequence of Random Variables |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 3 - Laws of Large Numbers and Central Limit Theorem |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 4 - What is a stochastic process? |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 5 - Counting Process |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 6 - Poisson Process - Introduction |
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NOC:Stochastic Modeling and the Theory of Queues |
Lecture 7 - Poisson Process - Memorylessness |
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NOC:Stochastic Modeling and the Theory of Queues |
Lecture 8 - Poisson Process - Increment properties |
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NOC:Stochastic Modeling and the Theory of Queues |
Lecture 9 - Distribution of arrival epoch Sn and N(t) for a Poisson Process |
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NOC:Stochastic Modeling and the Theory of Queues |
Lecture 10 - Alternate definitions of a Poisson Process |
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NOC:Stochastic Modeling and the Theory of Queues |
Lecture 11 - Merging of Poisson Processes - Part 1 |
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NOC:Stochastic Modeling and the Theory of Queues |
Lecture 12 - Merging of Poisson Processes - Part 2 |
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NOC:Stochastic Modeling and the Theory of Queues |
Lecture 13 - Splitting of Poisson Process - Part 1 |
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NOC:Stochastic Modeling and the Theory of Queues |
Lecture 14 - Splitting of Poisson Process - Part 2 |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 15 - Example: Poisson Splitting |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 16 - Conditional arrival density and order statistics - Part 1 |
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NOC:Stochastic Modeling and the Theory of Queues |
Lecture 17 - Conditional arrival density and order statistics - Part 2 |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 18 - Non Homogeneous Poisson Process |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 19 - Introduction to Queueing (with examples) |
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NOC:Stochastic Modeling and the Theory of Queues |
Lecture 20 - Examples: Non homogeneous Poisson process |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 21 - Examples: Competing Poisson processes |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 22 - Introduction to Renewal Processes |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 23 - Strong law for renewal processes |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 24 - Strong law for renewal processes - Proof |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 25 - Residual life, age and duration (Time average) - Part 1 |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 26 - Residual life, age and duration (Time average) - Part 2 |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 27 - Renewal Reward Theorem (Time average) - Part 1 |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 28 - Renewal Reward Theorem (Time average) - Part 2 |
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NOC:Stochastic Modeling and the Theory of Queues |
Lecture 29 - Stopping time |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 30 - Wald's Equality |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 31 - Wald's Equality (Continued...) |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 32 - Elementary Renewal Theorem |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 33 - The Renewal Equation |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 34 - The Renewal Equation (Continued...) |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 35 - G/G/1 Queue and Little's theorem |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 36 - Little's theorem |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 37 - M/G/1 Queue |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 38 - M/G/1 Queue and PK Formula |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 39 - M/G/1 Queue and PK Formula (Continued...) |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 40 - Ensemble rewards - Age and Duration |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 41 - Ensemble rewards - Age and Duration (Continued...) |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 42 - Key Renewal Theorem and Ensemble rewards |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 43 - Introduction to finite state Discrete Time Markov Chains |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 44 - Class and Types of Classes in a DTMC |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 45 - Periodicity in a DTMC |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 46 - Matrix Representation of a DTMC |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 47 - The long term behaviour of a DTMC |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 48 - Stationary Distribution and Long term behaviour of a DTMC - Part 1 |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 49 - Stationary Distribution and Long term behaviour of a DTMC - Part 2 |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 50 - Stationary Distribution and Long term behaviour of a DTMC - Part 3 |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 51 - Spectral Properties of Stochastic Matrices - Part 1 |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 52 - Spectral Properties of Stochastic Matrices - Part 2 |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 53 - The Short-term Behaviour of a DTMC |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 54 - Introduction to Countable-state DTMC |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 55 - Introduction to Countable-state DTMC (Continued...) |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 56 - The Strong Markov Property |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 57 - Renewal Theory applied to DTMC's |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 58 - Stationary Distribution of a Countable State Space DTMC and Renewal Theory |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 59 - Stationary Distribution of a Countable State Space DTMC and Renewal Theory (Continued...) |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 60 - Stationary Distribution and The Steady State Behaviour of a Countable-state DTMC - Part 1 |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 61 - Stationary Distribution and The Steady State Behaviour of a Countable-state DTMC - Part 2 |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 62 - Convergence to Steady State of a Coutable-state DTMC (Stochastic Coupling) |
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NOC:Stochastic Modeling and the Theory of Queues |
Lecture 63 - The Birth-Death Markov Chains |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 64 - The Reversibility Markov Chains |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 65 - The Reversibility Markov Chains (Continued...) |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 66 - Time Sampled M/M/1 Queue and The Burke's Theorem |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 67 - Introduction to Continuous Time Markov Chains |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 68 - Introduction to CTMC (Continued...) |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 69 - The Steady State Behaviour of CTMC - Part 1 |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 70 - The Steady State Behaviour of CTMC - Part 2 |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 71 - The Steady State Behaviour of CTMC - Part 3 |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 72 - The Steady State Behaviour of CTMC - Part 4 |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 73 - The chapman-kolmogrov equations for CTMC's |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 74 - The Birth-Death Continuous time Markov Chains |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 75 - The Reversibility of Continuous time Markov Chains |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 76 - Burke's Theorem and the Tandem Queues - Part 1 |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 77 - Burke's Theorem and the Tandem Queues - Part 2 |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 78 - The Jackson Networks - Part 1 |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 79 - The Jackson Networks - Part 2 |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 80 - Semi Markov Processes - Part 1 |
| Link |
NOC:Stochastic Modeling and the Theory of Queues |
Lecture 81 - Semi Markov Processes - Part 2 |
| Link |
NOC:Integrated Photonics Devices and Circuits |
Lecture 1 - Course Background and Learning Outcome |
| Link |
NOC:Integrated Photonics Devices and Circuits |
Lecture 2 - Moore's Law and Interconnect Bottleneck |
| Link |
NOC:Integrated Photonics Devices and Circuits |
Lecture 3 - Progress in Optical Interconnect Technology and Beyond |
| Link |
NOC:Integrated Photonics Devices and Circuits |
Lecture 4 - Evolution of Silicon Photonics Platform |
| Link |
NOC:Integrated Photonics Devices and Circuits |
Lecture 5 - Fundamentals of Lightwaves: EM Waves: Maxwell Equations and Plane Wave Solutions |
| Link |
NOC:Integrated Photonics Devices and Circuits |
Lecture 6 - Fundamentals of Lightwaves: EM Waves: Wave Propagation in Lossy Dielectric Medium |
| Link |
NOC:Integrated Photonics Devices and Circuits |
Lecture 7 - Fundamentals of Lightwaves: EM Waves in Metals and Semiconductors |
| Link |
NOC:Integrated Photonics Devices and Circuits |
Lecture 8 - Fundamentals of Lightwaves: EM Waves: Plasma Dispersion |
| Link |
NOC:Integrated Photonics Devices and Circuits |
Lecture 9 - Fundamentals of Lightwaves: EM Waves Principle of Optical Waveguiding |
| Link |
NOC:Integrated Photonics Devices and Circuits |
Lecture 10 - Fundamentals of Lightwaves: 1-D Optical Waveguide: Ray Optics Model |
| Link |
NOC:Integrated Photonics Devices and Circuits |
Lecture 11 - Optical Waveguides: Theory and Design: TIR Based Eigen Mode Solutions for Slab Waveguides |
| Link |
NOC:Integrated Photonics Devices and Circuits |
Lecture 12 - Optical Waveguides: Theory and Design: TIR Based Design Solutions for Slab Waveguides |
| Link |
NOC:Integrated Photonics Devices and Circuits |
Lecture 13 - Optical Waveguides: Theory and Design: Guided ModeSolutions for Slab Waveguides |
| Link |
NOC:Integrated Photonics Devices and Circuits |
Lecture 14 - Optical Waveguides: Theory and Design: Guided ModeSolutions for Slab Waveguides cont |
| Link |
NOC:Integrated Photonics Devices and Circuits |
Lecture 15 - Optical Waveguides: Theory and Design: Guided Mode Dispersionand Power in Slab Waveguides |
| Link |
NOC:Integrated Photonics Devices and Circuits |
Lecture 16 - Optical Waveguides: Theory and Design: Optical Waveguide with 2D confinement |
| Link |
NOC:Integrated Photonics Devices and Circuits |
Lecture 17 - Optical Waveguides: Theory and Design: Dispersion and Polarization of Guided Modes |
| Link |
NOC:Integrated Photonics Devices and Circuits |
Lecture 18 - Optical Waveguides: Theory and Design: Orthogonalityof Guided Modes |
| Link |
NOC:Integrated Photonics Devices and Circuits |
Lecture 19 - Optical Waveguides: Theory and Design: Coupled Mode Theoryof Guided Modes |
| Link |
NOC:Integrated Photonics Devices and Circuits |
Lecture 20 - Optical Waveguides: Theory and Design: Coupled Mode Theory (Continued...) |
| Link |
NOC:Integrated Photonics Devices and Circuits |
Lecture 21 - Optical Waveguides: Theory and Design: Coupled Mode Theory (Continued...) |
| Link |
NOC:Integrated Photonics Devices and Circuits |
Lecture 22 - Integrated Optical Components: Y-Junction Power Splitter/Combiner and Mach-Zehnder Interferometer |
| Link |
NOC:Integrated Photonics Devices and Circuits |
Lecture 23 - Integrated Optical Components: Directional Coupler: Coupled Waveguides |
| Link |
NOC:Integrated Photonics Devices and Circuits |
Lecture 24 - Integrated Optical Components: Directional Coupler: Coupled Waveguides (Continued...) |
| Link |
NOC:Integrated Photonics Devices and Circuits |
Lecture 25 - Integrated Optical Components: Directional Coupler: Design and Modelling |
| Link |
NOC:Integrated Photonics Devices and Circuits |
Lecture 26 - Integrated Optical Components: DC based MZI and Microring Resonator (MRR) |
| Link |
NOC:Integrated Photonics Devices and Circuits |
Lecture 27 - Integrated Optical Components: Microring Resonator (MRR): Passive Characteristics |
| Link |
NOC:Integrated Photonics Devices and Circuits |
Lecture 28 - Integrated Optical Components: Distributed Bragg Reflector (DBR) |
| Link |
NOC:Integrated Photonics Devices and Circuits |
Lecture 29 - Integrated Optical Components: Distributed Bragg Reflector (DBR): Device Design - Part 1 |
| Link |
NOC:Integrated Photonics Devices and Circuits |
Lecture 30 - Integrated Optical Components: Distributed Bragg Reflector (DBR): Device Design - Part 2 |
| Link |
NOC:Integrated Photonics Devices and Circuits |
Lecture 31 - Tunable Devices and Reconfigurable Circuits: Phase Error Interference |
| Link |
NOC:Integrated Photonics Devices and Circuits |
Lecture 32 - Tunable Devices and Reconfigurable Circuits: Post Fabrication Phase Error Corrections |
| Link |
NOC:Integrated Photonics Devices and Circuits |
Lecture 33 - Tunable Devices and Reconfigurable Circuits: Thermo-Optic Switching and Tuning |
| Link |
NOC:Integrated Photonics Devices and Circuits |
Lecture 34 - Tunable Devices and Reconfigurable Circuits: Programmable Silicon Photonics |
| Link |
NOC:Integrated Photonics Devices and Circuits |
Lecture 35 - Electro-Optic Modulators for Integrated Photonics: Basic Design and Working Principle |
| Link |
NOC:Integrated Photonics Devices and Circuits |
Lecture 36 - Electro-Optic Modulators for Integrated Photonics: Various Physical Mechanisms |
| Link |
NOC:Integrated Photonics Devices and Circuits |
Lecture 37 - Electro-Optic Modulators for Integrated Photonics: FCCE Based Silicon Photonics Modulator |
| Link |
NOC:Integrated Photonics Devices and Circuits |
Lecture 38 - Light Sources and Photodetectors for Integrated Photonics: Integrated Photonic light Sources - Part 1 |
| Link |
NOC:Integrated Photonics Devices and Circuits |
Lecture 39 - Light Sources and Photodetectors for Integrated Photonics: Integrated Photonic light Sources - Part 2 |
| Link |
NOC:Integrated Photonics Devices and Circuits |
Lecture 40 - Light Sources and Photodetectors for Integrated Photonics: Photodetectors for Silicon Photonics |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 1 - Types of Semiconductors |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 2 - Classical Vs Quantum Mechanics |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 3 - Electrons in infinite and finite 1D potential well |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 4 - 3D potential well model of atom and Bohr's model |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 5 - Covalent bonds and inter-atomic interactions in Silicon |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 6 - Energy band formation |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 7 - Electron hole pair generation |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 8 - Direct and Indirect bandgap semiconductors |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 9 - Energy levels in infinite and finite potential wells (short demo) |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 10 - Effective mass in Semiconductors |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 11 - Intrinsic carrier density |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 12 - Doping and extrinsic semiconductors |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 13 - Fermi level in extrinsic semiconductors |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 14 - Temperature dependence of Fermi level |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 15 - Temperature dependence of Fermi level |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 16 - Charge neutrality relationship |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 17 - Drift current and energy band representation of kinetic energy of carriers |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 18 - Semiconductor bands in a electric field |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 19 - Diffusion current |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 20 - Non-uniform doping |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 21 - Equilibrium Vs Nonequilibrium carrier response |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 22 - Minority carrier diffusion equation (MCDE) - Example problems |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 23 - Quasi Fermi level in nonequilibrium conditions |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 24 - Quasi Fermi level and minority carrier diffusion length |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 25 - Semiconductor device fabrication |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 26 - PN Junctions - An introduction |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 27 - PN Junction electrostatics |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 28 - Energy band diagram of PN junction |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 29 - Depletion width and peak electric field |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 30 - PN junction electrostatics - examples |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 31 - Demo of PN Junction Lab on Nanohub |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 32 - Forward and reverse biased PN junctions |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 33 - Minority carrier injection in PN junctions |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 34 - Current in forward biased PN junction |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 35 - Current in reverse biased PN junction |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 36 - Depletion capacitance in PN junction |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 37 - Non-idealities in PN junction diode |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 38 - Nanohub Demo - PN Junction with applied bias |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 39 - Schottky barrier in metal-semiconductor junction |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 40 - Current flow across a Schottky barrier |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 41 - Ohmic vs rectifying contacts |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 42 - An Ideal MOS Capacitor |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 43 - Operating regimes of a MOSCAP |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 44 - Simplified band diagrams of accumulation and depletion in MOSCAP |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 45 - Inversion in a MOSCAP |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 46 - NMOSCAP in accumulation mode |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 47 - NMOSCAP in depletion mode |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 48 - NMOSCAP in inversion mode |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 49 - Exact solution vs delta-depletion approximation |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 50 - Threshold voltage in a MOSCAP |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 51 - Nanohub Demo - MOSCAP tool |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 52 - Non-ideal MOS Capacitor |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 53 - MOSCAP Capacitance-Voltage (CV) Characteristics |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 54 - Example problems with MOSCAPs |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 55 - Impact of doping, oxide thickness and temperature on CV |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 56 - Nanohub Demo - MOS CV |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 57 - Introduction to MOSFET |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 58 - Operating modes of a MOSFET |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 59 - IV Characteristics of a long channel MOSFET |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 60 - Example problems with MOSFETs |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 61 - MOSFET device metrics |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 62 - CMOS Technology |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 63 - MOSFET Scaling and technology nodes |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 64 - Limits of scaling |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 65 - Current characteristics of a short channel MOSFET |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 66 - Threshold voltage characteristics of short channel MOSFET |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 67 - MOSFETs in the 21st century |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 68 - Optical absorption and bandgap |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 69 - Introduction to solar cells |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 70 - Efficiency of a solar cell |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 71 - Types of photodetectors |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 72 - PIN and avalanche Photodectectors |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 73 - Photodetector metrics |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 74 - Radiative absoption and emission processes |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 75 - Materials for optoelectronic devices |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 76 - Operation of a light emitting diode (LED) |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 77 - LED emission spectrum |
| Link |
NOC:Introduction to Semiconductor Devices |
Lecture 78 - Stimulated emission and lasing |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 1 - Electric Vehicle Introduction |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 2 - The drive Torque, Power, Speed and Energy |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 3 - Energy Source |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 4 - Vehicle Auxillary, Petrol pumps and Charging stations |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 5 - Introduction to Electric Vehicles in India |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 6 - Can India Drive its EV program Innovatively and Differently and scale |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 7 - Battery Cost reduction strategy |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 8 - A bit about Batteries, Charging and Swapping Infrastructure |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 9 - Where will we get Lithium for batteries and EV Subsystems |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 10 - Forces acting when a vehicle move |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 11 - Aerodynamic drag, Rolling Resistance and Uphill Resistance |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 12 - Power and torque to accelerate |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 13 - Putting it all together - 1 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 14 - Putting it all together - 2 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 15 - Concept of drive cycle - 1 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 16 - Concept of drive cycle - 2 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 17 - Drive Cycles and Energy used per km - Part 1 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 18 - Drive Cycles and Energy used per km - Part 2 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 19 - EV Subsystem: Design of EV Drive Train - Part 1 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 20 - EV Subsystem: Design of EV Drive Train - Part 2 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 21 - Introduction to Battery Parameters - Part 1 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 22 - Introduction to Battery Parameters - Part 2 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 23 - Why Lithium Ion Battery? - Part 1 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 24 - Why Lithium Ion Battery? - Part 2 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 25 - Batteries in Future |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 26 - Li-Ion Battery Cells |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 27 - SoH and SoC estimation and Self Discharge - Part 1 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 28 - SoH and SoC estimation and Self Discharge - Part 2 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 29 - Battery Pack Development - Part 1 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 30 - Battery Pack Development - Part 2 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 31 - Computation of Effective cost of battery - Part 1 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 32 - Computation of Effective cost of battery - Part 2 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 33 - Charging Batteries |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 34 - Fundamentals of Battery Pack Design |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 35 - Electrical Design of Battery Pack - Part 1 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 36 - Electrical Design of Battery Pack - Part 2 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 37 - Electrical Design of Battery Pack - Part 3 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 38 - Mechanical Design of Battery Pack - Part 1 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 39 - Mechanical Design of Battery Pack - Part 2 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 40 - Mechanical Design of Battery Pack - Part 3 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 41 - Mechanical Design of Battery Pack - Part 4 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 42 - Thermal Design of Battery Pack - Part 1 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 43 - Thermal Design of Battery Pack - Part 2 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 44 - Thermal Design of Battery Pack - Part 3 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 45 - Thermal Design of Battery Pack - Part 4 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 46 - BMS Design and Embedded System - Part 1 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 47 - BMS Design and Embedded System - Part 2 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 48 - BMS Design and Embedded System - Part 3 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 49 - BMS Design and Embedded System - Part 4 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 50 - BMS Design and Embedded System - Part 5 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 51 - Cell Testing and Characterization - Part 1 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 52 - Cell Testing and Characterization - Part 2 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 53 - EV Motors and Controllers - Vehicle Dynamics - Part 1 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 54 - EV Motors and Controllers - Vehicle Dynamics - Part 2 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 55 - EV Motors and Controllers - Understanding Flow - Part 1 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 56 - EV Motors and Controllers - Understanding Flow - Part 2 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 57 - Power and Efficiency |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 58 - Torque Production - Part 1 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 59 - Torque Production - Part 2 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 60 - Torque Production - Part 3 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 61 - Speed and Back EMF |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 62 - The d-q Equivalent circuit - Part 1 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 63 - The d-q Equivalent circuit - Part 2 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 64 - Field-oriented Control |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 65 - Three phase AC - Part 1 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 66 - Three phase AC - Part 2 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 67 - Thermal Design - Part 1 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 68 - Thermal Design - Part 2 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 69 - Thermal Design - Part 3 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 70 - Engineering Considerations - Part 1 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 71 - Engineering Considerations - Part 2 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 72 - Engineering Considerations - Part 3 and Future Frontiers |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 73 - EV Charger Introduction |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 74 - Charger Paramaters and Types |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 75 - Slow Fast chargers and Swapping |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 76 - Swapping |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 77 - Standardization and on board chargers |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 78 - Public chargers |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 79 - Public charger economics in Indian Context |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 80 - Bulk Chargers, Swapping stations and data analytics |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 81 - Introduction to Energy Scenario in India - Part 1 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 82 - Introduction to Energy Scenario in India - Part 2 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 83 - A novel Approach towards 100% RE in India - Part 1 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 84 - A novel Approach towards 100% RE in India - Part 2 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 85 - Going Beyond solar, wind, Li Ion and chilled water storage |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 86 - Solar Photovoltaic |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 87 - Solar Cell and its Characteristics |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 88 - Solar Cells to Modules |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 89 - Wind Energy |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 90 - The War of Currents |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 91 - The Birth of Solar - DC |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 92 - Storage Options for Energy - Part 1 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 93 - Storage Options for Energy - Part 2 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 94 - Storage Options for Energy - Part 3 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 95 - Storage Options for Energy - Part 4 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 96 - The EV Ecosystem - Part 1 |
| Link |
NOC:Electric Vehicles and Renewable Energy |
Lecture 97 - The EV Ecosystem - Part 2 |
| Link |
Phase-locked loops |
Lecture 1 - Course Introduction and Motivation - Part I |
| Link |
Phase-locked loops |
Lecture 2 - Course Introduction and Motivation - Part II |
| Link |
Phase-locked loops |
Lecture 3 - Basic Operation of a Phase Locked Loop |
| Link |
Phase-locked loops |
Lecture 4 - Simple Implementation of a Phase Locked Loop |
| Link |
Phase-locked loops |
Lecture 5 - Input Output Characteristics of Basic PLL Blocks |
| Link |
Phase-locked loops |
Lecture 6 - Time Domain Analysis of a Simple PLL |
| Link |
Phase-locked loops |
Lecture 7 - Time Domain Versus Small Signal Analysis of a Simple PLL |
| Link |
Phase-locked loops |
Lecture 8 - Type and Order of PLL |
| Link |
Phase-locked loops |
Lecture 9 - Small Signal Analysis of Type-I/II/III PLLs for Phase Step, Frequency Step and Frequency Ramp |
| Link |
Phase-locked loops |
Lecture 10 - Frequency Acquisition Range for PLLs |
| Link |
Phase-locked loops |
Lecture 11 - Frequency Acquisition in Type-I PLLs |
| Link |
Phase-locked loops |
Lecture 12 - Frequency Acquisition Limits in Type-I PLLs |
| Link |
Phase-locked loops |
Lecture 13 - Frequency Acquisition in Type II PLLs |
| Link |
Phase-locked loops |
Lecture 14 - Frequency Acquisition Ranges in Type II PLLs with Ideal and Non Ideal Integrator |
| Link |
Phase-locked loops |
Lecture 15 - Frequency Domain Insight in Frequency Acquisition for Type II PLLs |
| Link |
Phase-locked loops |
Lecture 16 - Introduction to Clock Multipliers |
| Link |
Phase-locked loops |
Lecture 17 - Analog Phase Error Detectors - Part I |
| Link |
Phase-locked loops |
Lecture 18 - Analog Phase Error Detectors - Part II |
| Link |
Phase-locked loops |
Lecture 19 - Digital Phase Error Detectors - Part I |
| Link |
Phase-locked loops |
Lecture 20 - Digital Phase Error Detectors - Part II |
| Link |
Phase-locked loops |
Lecture 21 - Range Extension for Phase Error Detectors |
| Link |
Phase-locked loops |
Lecture 22 - Phase Frequency Detector |
| Link |
Phase-locked loops |
Lecture 23 - Digital Frequency Detector |
| Link |
Phase-locked loops |
Lecture 24 - Charge Pump PLL |
| Link |
Phase-locked loops |
Lecture 25 - Small Signal and Stability Analysis of Type II Order 2 Charge Pump PLL |
| Link |
Phase-locked loops |
Lecture 26 - Problems in Charge Pump PLL - Dead Zone in PFD |
| Link |
Phase-locked loops |
Lecture 27 - Problems in Charge Pump PLL - Reference Spur |
| Link |
Phase-locked loops |
Lecture 28 - Design Procedure for Type-II Order 3 Charge Pump PLL |
| Link |
Phase-locked loops |
Lecture 29 - Design Procedure for Charge Pump Clock Multiplier |
| Link |
Phase-locked loops |
Lecture 30 - Sources of Non-Linearities in CP-PLL - Part I |
| Link |
Phase-locked loops |
Lecture 31 - Sources of Non-Linearities in CP-PLL - Part II |
| Link |
Phase-locked loops |
Lecture 32 - Noise Analysis in CP-PLL - Part I |
| Link |
Phase-locked loops |
Lecture 33 - Noise Analysis in CP PLL - Part II |
| Link |
Phase-locked loops |
Lecture 34 - Noise Analysis in CP-PLL - Part III |
| Link |
Phase-locked loops |
Lecture 35 - Noise Simulations for CP-PLL Blocks |
| Link |
Phase-locked loops |
Lecture 36 - Introduction to Oscillators |
| Link |
Phase-locked loops |
Lecture 37 - Low Swing Ring Oscillator - Part I |
| Link |
Phase-locked loops |
Lecture 38 - Low-Swing Ring Oscillator - Part II |
| Link |
Phase-locked loops |
Lecture 39 - Large-Swing Ring Oscillator - Part I |
| Link |
Phase-locked loops |
Lecture 40 - Large-Swing Ring Oscillator - Part II |
| Link |
Phase-locked loops |
Lecture 41 - Large-Swing Ring Oscillator - Part III |
| Link |
Phase-locked loops |
Lecture 42 - Large-Swing Ring Oscillator - Part IV |
| Link |
Phase-locked loops |
Lecture 43 - Large-Swing Ring Oscillator - Part V |
| Link |
Phase-locked loops |
Lecture 44 - Supply Regulated VCO - Part I |
| Link |
Phase-locked loops |
Lecture 45 - Supply Regulated VCO - Part II |
| Link |
Phase-locked loops |
Lecture 46 - Supply Regulated VCO - Part III |
| Link |
Phase-locked loops |
Lecture 47 - Phase Noise in Ring Oscillators |
| Link |
Phase-locked loops |
Lecture 48 - Circuit level Design of PFD - Part I |
| Link |
Phase-locked loops |
Lecture 49 - Circuit level Design of PFD - Part II |
| Link |
Phase-locked loops |
Lecture 50 - Circuit level Design of PFD - Part III |
| Link |
Phase-locked loops |
Lecture 51 - Circuit level Design of Charge Pump - Part I |
| Link |
Phase-locked loops |
Lecture 52 - Circuit-level Design of Charge Pump - Part II |
| Link |
Phase-locked loops |
Lecture 53 - Circuit-level Design of Charge Pump - Part III |
| Link |
Phase-locked loops |
Lecture 54 - Circuit-level Design of Charge Pump - Part IV |
| Link |
Phase-locked loops |
Lecture 55 - Circuit-level Design of Charge Pump - Part V |
| Link |
Phase-locked loops |
Lecture 56 - Circuit-level Design of Charge Pump - Part VI |
| Link |
Phase-locked loops |
Lecture 57 - Circuit-level Design of Clock Frequency Divider |
| Link |
Phase-locked loops |
Lecture 58 - Techniques for Wide Frequency Range Clock Multiplier |
| Link |
Phase-locked loops |
Lecture 59 - Introduction to Digital PLL |
| Link |
Phase-locked loops |
Lecture 60 - Design of Time-to-Digital Converter |
| Link |
Phase-locked loops |
Lecture 61 - Small Signal Analysis of Digital PLL |
| Link |
Phase-locked loops |
Lecture 62 - Noise Analysis in Digital PLL |
| Link |
Phase-locked loops |
Lecture 63 - Analog/Digital Hybrid PLL - Part I |
| Link |
Phase-locked loops |
Lecture 64 - Analog/Digital Hybrid PLL - Part II |
| Link |
Phase-locked loops |
Lecture 65 - Course Summary |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 1 - Review of Maxwell's Equations |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 2 - Wave Equation |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 3 - Dispersion Relation |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 4 - Propagating and Evanescent Waves |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 5 - Diffraction Limit and Spatial Frequencies |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 6 - Plane Waves |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 7 - Optical Response of Materials |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 8 - Lorentz Model |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 9 - Properties of Lorentz Oscillator Model |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 10 - Drude-Lorentz Model for Metals |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 11 - Kramers-Kronig Relation |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 12 - Engineering Optical Response of Materials |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 13 - Low dimensional systems |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 14 - Absorption in Semiconductors |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 15 - Optical gain in semiconductors |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 16 - Absorption in low-dimensional semiconductors |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 17 - Selection rules for optical processes |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 18 - Scattering of EM radiation |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 19 - LSPR: Quasi-static approximation |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 20 - Size dependence of Plasmon Resonance |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 21 - Tuning Plasmonic Resonances |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 22 - Surface Plasmon Polariton(SPP) |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 23 - Understanding SPP Dispersion Diagram |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 24 - Exciting Surface Plasmon Polaritons |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 25 - Analytical Calculation of Scattering Coefficients - IPython code overview |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 26 - EM Waves in Multilayer Stack - T Matrix formulation |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 27 - Photonic Bandgap in 1D |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 28 - EM Waves in 1D Photonic Crystal |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 29 - Diffracton Grating |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 30 - Applications of Photonic Crystals |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 31 - PhC in 1D - T-matrix examples |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 32 - Introduction to Metamaterials |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 33 - Metamaterials at GHz and THz frequecies |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 34 - Negative index materials at optical frequencies |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 35 - Plasmonic Metasurfaces |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 36 - Dielectric Metasurfaces |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 37 - Tunable and Active Metamaterials |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 38 - Radiative Absorption and Emission |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 39 - Miniaturization of Integrated Photonic Devices |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 40 - Recent trends in nanoscale lasers |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 41 - Non-Hermitian Systems |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 42 - Resonant light-atom interactions |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 43 - Experimental observation of Rabi oscillations |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 44 - Atom-Cavity Interaction - Weak and strong coupling regimes |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 45 - Experimental observation of weak and strong coupling |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 46 - Fabrication of nanophotonic structures - 1 |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 47 - Fabrication of nanophotonic structures - 2 |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 48 - Measuring light quanta |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 49 - Photon Statistics |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 50 - Photodetection and shot noise limit |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 51 - Second order correlation function |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 52 - Hanbury Brown-Twiss Experiment with Photons |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 53 - EM Waves as harmonic oscillator |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 54 - Vacuum fluctuations |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 55 - Coherent and squeezed states |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 56 - Squeezed and photon number states |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 57 - Application of squeezed states |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 58 - Preliminaries for quantum theory of light |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 59 - Quantum theory of light |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 60 - Operator solution of quantum harmonic oscillator |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 61 - Photon number states |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 62 - Field quadratures and operators |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 63 - Uncertainty relations for quantum light |
| Link |
NOC:Fundamentals of Nano and Quantum Photonics |
Lecture 64 - Applications of quantum light - Quantum Key Distribution |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 1 - Introduction Linear and Nonlinear Network |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 2 - Small Signal Analysis of Nonlinear Networks |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 3 - Small Signal Analysis |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 4 - Incremental Model for Common Two Terminal Element Passive Two Terminal Elements |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 5 - Linear and Nonlinear Two Ports and the Incremental Y Matrix |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 6 - Graphical Representation of the Y Matrix |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 7 - Nonlinear Two Ports With Incremental Gain |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 8 - IV Charateristic of a Nonlinear 2 port with Incremental Gain |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 9 - The MOSFET and its Characterisitics |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 10 - Deriving the Common V Source Amplifier - Part 1 |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 11 - The Common Source Amplifier |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 12 - Large Signal Behaviour of the Common Source Amplifier |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 13 - The Common Source Amplifier Swing Limits |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 14 - Introduction to Robust Biasing |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 15 - Robust Biasing Part 1 Common Source Amplifier with DC Drain Feedback |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 16 - Robust Biasing with the Current Mirror and Drain Gate Resistor |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 17 - Robust Baising With Source Feedback - Part 1 |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 18 - Robust Biasing with Source Feedback - Part 2 |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 19 - Robust Biasing with Source Degeneration |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 20 - Introduction to Negative Feedback |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 21 - The Ideal Operational Amplifier |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 22 - Negative Feedback (Continued...) |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 23 - Robust Baising with Drain Measurement and Source Feedback |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 24 - Robust biasing with source measurement and gate feedback |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 25 - The Incremental Voltage Controlled Voltage Source The Common drain Amplifier Incremental Picture |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 26 - Baising of the Common Drain Amplifier and Signal Swings |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 27 - The VCVS Continued, the Incremental |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 28 - Introducing the Current Controlled Voltage Source |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 29 - The Incremental Current Controlled Voltage Source Transimpedance Amplifier |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 30 - The Transimpedance amplifier (Continued...) |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 31 - The Incremental current controlled current source, the common gate amplifier |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 32 - Summary of controlled Sources and finite output Impedance of the Transistor |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 33 - Effect of Finite Output Resistance on the Basic Building Blocks - Part 1 |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 34 - Effect of Finite Output Resistance on the Basic Building Blocks - Part 2 |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 35 - Effect of Finite Output Resistance on the Basic Building Blocks - Part 3 |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 36 - Finite output Effect in current Mirrors the Cascode Current Mirror |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 37 - Comparison of Current Mirrors The High Swing Cascode |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 38 - Precision High Swing Cascode |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 39 - The PMOS transistor |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 40 - Small Signal Model and Bias Stabilization |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 41 - Basic Building Blocks with PMOS Devices |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 42 - Fixed Transconductance Bias Circuits from First Principles |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 43 - Limitation of a Resistive Load |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 44 - The Active Load |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 45 - The Active Load (Continued...) |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 46 - The CMOS Inverter |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 47 - The CMOS Inverter (Continued...) |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 48 - The Differential Amplifier |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 49 - Half - Circuit Analysis |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 50 - The Different Amplifier with Active Load - Part 1 |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 51 - The Different Amplifier with Active Load - Part 2 |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 52 - Large Signal Behaviour of the Different Pair |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 53 - The two Stage Opamp and Single Supply Operation |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 54 - The two Stage Opamp (Continued...) |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 55 - The Two Stage Opamp (Continued...) |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 56 - Swing Limits of the Two Stage OTA |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 57 - The Two-Stage Opamp |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 58 - The Bandgap Reference Principle |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 59 - The Bandgap Reference - Part 1 |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 60 - The Bandgap Reference - Part 2 |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 61 - Memory Effects in MOS Transistors |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 62 - The Common Source Amplifier with Parasitic Capacitances |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 63 - The Common Source Amplifier with Parasitic Capacitances |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 64 - Frequency Response of the Common Drain Amplifier |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 65 - Frequency Response of the Common Gate Amplifier |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 66 - Stability of Negative Feedback System The First Order Forward Amplifier |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 67 - Stabilty of Second Order Feedback System |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 68 - Stability of Third Order Negative Feedback System |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 69 - Dominant Pole Compensation - Part 1 |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 70 - Dominant Pole Cpmpensation - Part 2 |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 71 - Phase Margin |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 72 - Example Phase Margin Caculations |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 73 - Dominant Pole Compensation Summary |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 74 - Phase Margin Example |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 75 - The 2 Stage Miller Compensated Amplifier |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 76 - 2 Stage Operational Amplifier and Miller Compensation (Continued...) |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 77 - Intuition Behind the Dominant and Second Poles in a Miller Compensated OTA |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 78 - 2 Stage Operational Amplifier and Miller Compensation Cancelling the RHP Zero |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 79 - Miller Compensation OTA Schematic |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 80 - Bipolar Junction Transistor Circuits-Device Equations and Small Signal Model |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 81 - BJT Biasing and Basic Building Blocks |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 82 - Bipolar Junction Transistor Circuits Swing Limits and Two Stage Opamp |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 83 - Input Stage of the 741 Opamp |
| Link |
NOC:Analog Electronic Circuits (IITM) |
Lecture 84 - Basic Analysis of the 741 |
| Link |
NOC:Modern Computer Vision |
Lecture 1 - Course introduction - 1 |
| Link |
NOC:Modern Computer Vision |
Lecture 2 - Course introduction - 2 |
| Link |
NOC:Modern Computer Vision |
Lecture 3 - Introduction to Deep Learning - 1 |
| Link |
NOC:Modern Computer Vision |
Lecture 4 - Introduction to Deep Learning - 2 |
| Link |
NOC:Modern Computer Vision |
Lecture 5 - Introduction to Deep Learning - 3 |
| Link |
NOC:Modern Computer Vision |
Lecture 6 - Introduction to Neuron - 1 |
| Link |
NOC:Modern Computer Vision |
Lecture 7 - Introduction to Neuron - 2 |
| Link |
NOC:Modern Computer Vision |
Lecture 8 - Introduction to Neuron - 3 |
| Link |
NOC:Modern Computer Vision |
Lecture 9 - Multilayer Perceptron |
| Link |
NOC:Modern Computer Vision |
Lecture 10 - Regression and classification losses |
| Link |
NOC:Modern Computer Vision |
Lecture 11 - Training a neural network |
| Link |
NOC:Modern Computer Vision |
Lecture 12 - Gradient descent |
| Link |
NOC:Modern Computer Vision |
Lecture 13 - Activation function |
| Link |
NOC:Modern Computer Vision |
Lecture 14 - Backpropagation in MLP - 1 |
| Link |
NOC:Modern Computer Vision |
Lecture 15 - Backpropagation in MLP - 2 |
| Link |
NOC:Modern Computer Vision |
Lecture 16 - Optimization and Regularization - 1 |
| Link |
NOC:Modern Computer Vision |
Lecture 17 - Optimization and Regularization - 2 |
| Link |
NOC:Modern Computer Vision |
Lecture 18 - Regularization |
| Link |
NOC:Modern Computer Vision |
Lecture 19 - Dropout |
| Link |
NOC:Modern Computer Vision |
Lecture 20 - Pre-processing |
| Link |
NOC:Modern Computer Vision |
Lecture 21 - Convolutional Neural Networks - 1 |
| Link |
NOC:Modern Computer Vision |
Lecture 22 - Convolutional Neural Networks - 2 |
| Link |
NOC:Modern Computer Vision |
Lecture 23 - Convolutional Neural Networks - 3 |
| Link |
NOC:Modern Computer Vision |
Lecture 24 - CNN Properties |
| Link |
NOC:Modern Computer Vision |
Lecture 25 - Alexnet |
| Link |
NOC:Modern Computer Vision |
Lecture 26 - CNN Architectures - 1 |
| Link |
NOC:Modern Computer Vision |
Lecture 27 - CNN Architectures - 2 |
| Link |
NOC:Modern Computer Vision |
Lecture 28 - CNN Architectures - 3 |
| Link |
NOC:Modern Computer Vision |
Lecture 29 - Introduction to RNN - 1 |
| Link |
NOC:Modern Computer Vision |
Lecture 30 - Introduction to RNN - 2 |
| Link |
NOC:Modern Computer Vision |
Lecture 31 - Encoder-Decoder models in RNN |
| Link |
NOC:Modern Computer Vision |
Lecture 32 - LSTM |
| Link |
NOC:Modern Computer Vision |
Lecture 33 - Low-level vision - 1 |
| Link |
NOC:Modern Computer Vision |
Lecture 34 - Low-level vision - 2 |
| Link |
NOC:Modern Computer Vision |
Lecture 35 - Low-level vision - 3 |
| Link |
NOC:Modern Computer Vision |
Lecture 36 - Spatial Domain Filtering |
| Link |
NOC:Modern Computer Vision |
Lecture 37 - Frequency Domain Filtering |
| Link |
NOC:Modern Computer Vision |
Lecture 38 - Edge Detection - 1 |
| Link |
NOC:Modern Computer Vision |
Lecture 39 - Edge Detection - 2 |
| Link |
NOC:Modern Computer Vision |
Lecture 40 - DeepNets for Edge Detection |
| Link |
NOC:Modern Computer Vision |
Lecture 41 - Line detection |
| Link |
NOC:Modern Computer Vision |
Lecture 42 - Feature detectors |
| Link |
NOC:Modern Computer Vision |
Lecture 43 - Harris Corner Detector - 1 |
| Link |
NOC:Modern Computer Vision |
Lecture 44 - Harris Corner Detector - 2 |
| Link |
NOC:Modern Computer Vision |
Lecture 45 - Harris Corner Detector - 3 |
| Link |
NOC:Modern Computer Vision |
Lecture 46 - Blob detection - 1 |
| Link |
NOC:Modern Computer Vision |
Lecture 47 - Blob detection - 2 |
| Link |
NOC:Modern Computer Vision |
Lecture 48 - Blob detection - 3 |
| Link |
NOC:Modern Computer Vision |
Lecture 49 - SIFT - 1 |
| Link |
NOC:Modern Computer Vision |
Lecture 50 - SIFT - 2 |
| Link |
NOC:Modern Computer Vision |
Lecture 51 - Feature descriptors - 1 |
| Link |
NOC:Modern Computer Vision |
Lecture 52 - Feature descriptors - 2 |
| Link |
NOC:Modern Computer Vision |
Lecture 53 - SURF - 1 |
| Link |
NOC:Modern Computer Vision |
Lecture 54 - SURF - 2 |
| Link |
NOC:Modern Computer Vision |
Lecture 55 - Single-View Geometry - 1 |
| Link |
NOC:Modern Computer Vision |
Lecture 56 - Single-View Geometry - 2 |
| Link |
NOC:Modern Computer Vision |
Lecture 57 - 2D Geometric transformations - 1 |
| Link |
NOC:Modern Computer Vision |
Lecture 58 - 2D Geometric transformations - 2 |
| Link |
NOC:Modern Computer Vision |
Lecture 59 - Camera intrinsics and extrinsics - 1 |
| Link |
NOC:Modern Computer Vision |
Lecture 60 - Camera intrinsics and extrinsics - 2 |
| Link |
NOC:Modern Computer Vision |
Lecture 61 - Two-view stereo - 1 |
| Link |
NOC:Modern Computer Vision |
Lecture 62 - Two-view stereo - 2 |
| Link |
NOC:Modern Computer Vision |
Lecture 63 - Two-view stereo - 3 |
| Link |
NOC:Modern Computer Vision |
Lecture 64 - Algebraic representation of epipolar geometry - 1 |
| Link |
NOC:Modern Computer Vision |
Lecture 65 - Algebraic representation of epipolar geometry - 2 |
| Link |
NOC:Modern Computer Vision |
Lecture 66 - Fundamental matrix computation - 1 |
| Link |
NOC:Modern Computer Vision |
Lecture 67 - Fundamental matrix computation - 2 |
| Link |
NOC:Modern Computer Vision |
Lecture 68 - Structure from Motion - 1 |
| Link |
NOC:Modern Computer Vision |
Lecture 69 - Structure from Motion - 2 |
| Link |
NOC:Modern Computer Vision |
Lecture 70 - Structure from Motion - 3 |
| Link |
NOC:Modern Computer Vision |
Lecture 71 - Batch processing in SFM |
| Link |
NOC:Modern Computer Vision |
Lecture 72 - Multi-view SFM |
| Link |
NOC:Modern Computer Vision |
Lecture 73 - Factorization methods in SFM |
| Link |
NOC:Modern Computer Vision |
Lecture 74 - Bundle adjustment |
| Link |
NOC:Modern Computer Vision |
Lecture 75 - Dense 3D reconstruction |
| Link |
NOC:Modern Computer Vision |
Lecture 76 - Some results in Stereo and SFM |
| Link |
NOC:Modern Computer Vision |
Lecture 77 - Deepnets for stereo and SFM - 1 |
| Link |
NOC:Modern Computer Vision |
Lecture 78 - Deepnets for stereo and SFM - 2 |
| Link |
NOC:Modern Computer Vision |
Lecture 79 - Mid-level vision - 1 |
| Link |
NOC:Modern Computer Vision |
Lecture 80 - Mid-level vision - 2 |
| Link |
NOC:Modern Computer Vision |
Lecture 81 - Lucas-Kanade method for OF |
| Link |
NOC:Modern Computer Vision |
Lecture 82 - Handling large motion in optical flow |
| Link |
NOC:Modern Computer Vision |
Lecture 83 - Image segmentation |
| Link |
NOC:Modern Computer Vision |
Lecture 84 - GMM for clustering |
| Link |
NOC:Modern Computer Vision |
Lecture 85 - Deepnets for Segmentation and OF -1 |
| Link |
NOC:Modern Computer Vision |
Lecture 86 - Deepnets for Segmentation and OF -2 |
| Link |
NOC:Modern Computer Vision |
Lecture 87 - Deepnets for Segmentation and OF -3 |
| Link |
NOC:Modern Computer Vision |
Lecture 88 - Deepnets for Object Detection - 1 |
| Link |
NOC:Modern Computer Vision |
Lecture 89 - Deepnets for Object Detection - 2 |
| Link |
NOC:Modern Computer Vision |
Lecture 90 - Vision and Language |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 1 - Introduction to Optical Wireless Communications (OWC) |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 2 - Basics of Lighting System |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 3 - Optical Sources (LED) |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 4 - Optical Sources (LASER) |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 5 - Photodetecors |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 6 - Photodetectors (Continued...) |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 7 - SNR for PIN and APD |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 8 - Indoor OWC channel modelling |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 9 - Indoor OWC channel modelling (Continued...) |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 10 - Channel model for single source |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 11 - Channel model for multiple sources |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 12 - MIMO channel |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 13 - MIMO channel (Continued...) |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 14 - Outdoor Optical Channel Modelling |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 15 - Range equation of FSO link |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 16 - Range equation of FSO link (Continued...) |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 17 - Atmospheric Turbulence |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 18 - Atmospheric Turbulence (Continued...) |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 19 - Turbulence Mitigation techniques |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 20 - Underwater OWC Channel Model |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 21 - Underwater OWC Channel Model (Continued...) |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 22 - Modulation Schemes for OWC, BER for OOK |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 23 - BER of M-PPM, BER of L-PPM |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 24 - Differential Pulse Interval Modulation (DPIM) and (DAPPM) |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 25 - Variable Pulse Position Modulation (VPPM) |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 26 - OFDM Basics |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 27 - Cyclic Prefix (CP), OFDM with CP, BER of OFDM System |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 28 - Frequency Offset in OFDM, PAPR in OFDM |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 29 - OFDM in VLC, DCO-OFDM |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 30 - ACO-OFDM |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 31 - Color Shift Keying (CSK) |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 32 - Higher order CSK |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 33 - NOMA |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 34 - NOMA VLC |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 35 - MIMO |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 36 - VLC based MIMO NOMA |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 37 - Power allocation in VLC based MIMO NOMA |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 38 - Hybrid Network LiFi and WiFi Coexistance |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 39 - Vehicle to Vehicle communication using Visible light |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 40 - Anand Singh Part - 1 |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 41 - Anand Singh Part - 2 |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 42 - Dilnasin lecture - 1 |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 43 - Saswati Paramita |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 44 - Dilnashin Tutorial - 2 |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 45 - Guriendar Prof Anand 001 |
| Link |
NOC:Optical Wireless Communications for Beyond 5G Networks and IoT |
Lecture 46 - Rehana Prof Anand |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 1 - Basic Concepts of Integrated Circuit - I |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 2 - Basic Concepts of Integrated Circuit - II |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 3 - Overview of VLSI Design Flow - I |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 4 - Overview of VLSI Design Flow - II |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 5 - Tutorial 1 |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 6 - Overview of VLSI Design Flow - III |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 7 - Overview of VLSI Design Flow - IV |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 8 - Overview of VLSI Design Flow - V |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 9 - Overview of VLSI Design Flow - VI |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 10 - Introduction to TCL |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 11 - Hardware Modeling: Introduction to Verilog - I |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 12 - Hardware Modeling: Introduction to Verilog - II |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 13 - Functional Verification using Simulation |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 14 - High-level synthesis using Bambu - Tutorial 3 |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 15 - RTL Synthesis - Part I |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 16 - RTL Synthesis - Part II |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 17 - Logic Optimization - Part I |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 18 - Simulation-based Verification using Icarus |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 19 - Logic Optimization - Part II |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 20 - Logic Optimization - Part III |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 21 - Formal Verification - I |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 22 - Logic Synthesis using Yosys |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 23 - Formal Verification - II |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 24 - Formal Verification - III |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 25 - Formal Verification - IV |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 26 - Technology Library |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 27 - Logic Optimization using Yosys |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 28 - Static Timing Analysis - I |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 29 - Static Timing Analysis - II |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 30 - Static Timing Analysis - III |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 31 - Static Timing Analysis using OpenSTA |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 32 - Constraints - I |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 33 - Constraints - II |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 34 - Technology Mapping |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 35 - Timing-driven Optimization |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 36 - Technology Library and Constraints |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 37 - Power Analysis |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 38 - Power Optimization |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 39 - Basic Concepts of DFT |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 40 - Scan Design Flow |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 41 - Power Analysis using OpenSTA |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 42 - Automatic Test Pattern Generation (ATPG) |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 43 - Built-in Self Test (BIST) |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 44 - Basic Concepts for Physical Design - I |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 45 - Basic Concepts for Physical Design - II |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 46 - Installation of OpenRoad |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 47 - Chip Planning - I |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 48 - Chip Planning - II |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 49 - Placement |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 50 - Chip Planning and Placement |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 51 - Clock Tree Synthesis (CTS) |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 52 - Routing |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 53 - Post-layout Verification and Signoff |
| Link |
NOC:VLSI Design Flow: RTL to GDS |
Lecture 54 - Clock Tree Synthesis (CTS) and Routing |
| Link |
NOC:Fundamentals of Wireless Communication (Hindi) |
Lecture 1 - Introduction to the Course |
| Link |
NOC:Fundamentals of Wireless Communication (Hindi) |
Lecture 2 - Basics of Wireless Communication Systems |
| Link |
NOC:Fundamentals of Wireless Communication (Hindi) |
Lecture 3 - Path-Loss Models for a Wireless Channel |
| Link |
NOC:Fundamentals of Wireless Communication (Hindi) |
Lecture 4 - Log-Normal Shadowing |
| Link |
NOC:Fundamentals of Wireless Communication (Hindi) |
Lecture 5 - Small-Scale Fading |
| Link |
NOC:Fundamentals of Wireless Communication (Hindi) |
Lecture 6 - Statistical Multipath Channel Models |
| Link |
NOC:Fundamentals of Wireless Communication (Hindi) |
Lecture 7 - MATLAB programming for Path Loss Models |
| Link |
NOC:Fundamentals of Wireless Communication (Hindi) |
Lecture 8 - Statistical Multipath Channel Models - Part 1 |
| Link |
NOC:Fundamentals of Wireless Communication (Hindi) |
Lecture 9 - Statistical Multipath Channel Models - Part 2 |
| Link |
NOC:Fundamentals of Wireless Communication (Hindi) |
Lecture 10 - Digital Modulation and Detection (Binary Modulations) - Part 1 |
| Link |
NOC:Fundamentals of Wireless Communication (Hindi) |
Lecture 11 - Digital Modulation and Detection (Binary Modulations) - Part 2 |
| Link |
NOC:Fundamentals of Wireless Communication (Hindi) |
Lecture 12 - Digital Modulation and Detection (Binary Modulations) - Part 3 |
| Link |
NOC:Fundamentals of Wireless Communication (Hindi) |
Lecture 13 - MATLAB programming for Wireless Fading Channels |
| Link |
NOC:Fundamentals of Wireless Communication (Hindi) |
Lecture 14 - Digital Modulation and Detection (Binary Modulations) - Part 1 |
| Link |
NOC:Fundamentals of Wireless Communication (Hindi) |
Lecture 15 - Digital Modulation and Detection (Binary Modulations) - Part 2 |
| Link |
NOC:Fundamentals of Wireless Communication (Hindi) |
Lecture 16 - Digital Modulation and Detection (M-ary Modulation) - Part 1 |
| Link |
NOC:Fundamentals of Wireless Communication (Hindi) |
Lecture 17 - Digital Modulation and Detection (M-ary Modulation) - Part 2 |
| Link |
NOC:Fundamentals of Wireless Communication (Hindi) |
Lecture 18 - Digital Modulation and Detection (M-ary Modulation) - Part 3 |
| Link |
NOC:Fundamentals of Wireless Communication (Hindi) |
Lecture 19 - MATLAB programming for Modulation Schemes |
| Link |
NOC:Fundamentals of Wireless Communication (Hindi) |
Lecture 20 - Digital Modulation and Detection (GMSK) |
| Link |
NOC:Fundamentals of Wireless Communication (Hindi) |
Lecture 21 - Performance of Digital Modulation over Wireless Channels |
| Link |
NOC:Fundamentals of Wireless Communication (Hindi) |
Lecture 22 - Performance of Digital Modulation over Wireless Channels |
| Link |
NOC:Fundamentals of Wireless Communication (Hindi) |
Lecture 23 - MATLAB programaming: Error performance in AWGN channel |
| Link |
NOC:Fundamentals of Wireless Communication (Hindi) |
Lecture 24 - Receiver Diversity Techniques - Part 1 |
| Link |
NOC:Fundamentals of Wireless Communication (Hindi) |
Lecture 25 - Receiver Diversity Techniques - Part 2 |
| Link |
NOC:Fundamentals of Wireless Communication (Hindi) |
Lecture 26 - Receiver Diversity Techniques - Part 3 |
| Link |
NOC:Fundamentals of Wireless Communication (Hindi) |
Lecture 27 - Error performance in Fading Channel Part 1 |
| Link |
NOC:Fundamentals of Wireless Communication (Hindi) |
Lecture 28 - Error performance in Fading Channel Part 2 |
| Link |
NOC:Fundamentals of Wireless Communication (Hindi) |
Lecture 29 - Multi-Carrier Modulation and OFDM - Part 1 |
| Link |
NOC:Fundamentals of Wireless Communication (Hindi) |
Lecture 30 - Multi-Carrier Modulation and OFDM - Part 2 |
| Link |
NOC:Fundamentals of Wireless Communication (Hindi) |
Lecture 31 - Multi-Carrier Modulation and OFDM - Part 3 |
| Link |
NOC:Fundamentals of Wireless Communication (Hindi) |
Lecture 32 - Multi-Carrier Modulation and OFDM - Part 4 |
| Link |
NOC:Fundamentals of Wireless Communication (Hindi) |
Lecture 33 - Numerical on OFDM |
| Link |
NOC:Fundamentals of Wireless Communication (Hindi) |
Lecture 34 - Programming for OFDM |
| Link |
NOC:Fundamentals of Wireless Communication (Hindi) |
Lecture 35 - OFDM System with Cyclic Prefix |
| Link |
NOC:Fundamentals of Wireless Communication (Hindi) |
Lecture 36 - OFDM Signal Transmission and OFDM System Design |
| Link |
NOC:Fundamentals of Wireless Communication (Hindi) |
Lecture 37 - Advantages and Drawbacks of OFDM System |
| Link |
NOC:Fundamentals of Wireless Communication (Hindi) |
Lecture 38 - OFDM Standards |
| Link |
NOC:Fundamentals of Wireless Communication (Hindi) |
Lecture 39 - Multiple Access Schemes |
| Link |
NOC:Fundamentals of Wireless Communication (Hindi) |
Lecture 40 - Technologies for Wireless Cellular Standards |
| Link |
NOC:Sensor Technologies: Physics, Fabrication, and Circuits |
Lecture 1 - Sensors and Transducers - Basics |
| Link |
NOC:Sensor Technologies: Physics, Fabrication, and Circuits |
Lecture 2 - Introduction to Sensors |
| Link |
NOC:Sensor Technologies: Physics, Fabrication, and Circuits |
Lecture 3 - Materials for sensors |
| Link |
NOC:Sensor Technologies: Physics, Fabrication, and Circuits |
Lecture 4 - Multidisciplinary Aspects of Sensors |
| Link |
NOC:Sensor Technologies: Physics, Fabrication, and Circuits |
Lecture 5 - Introduction to Sensor Parameters |
| Link |
NOC:Sensor Technologies: Physics, Fabrication, and Circuits |
Lecture 6 - Sensor Parameters - II |
| Link |
NOC:Sensor Technologies: Physics, Fabrication, and Circuits |
Lecture 7 - Sensor Parameters - III |
| Link |
NOC:Sensor Technologies: Physics, Fabrication, and Circuits |
Lecture 8 - Sensor Parameters - IV |
| Link |
NOC:Sensor Technologies: Physics, Fabrication, and Circuits |
Lecture 9 - Sensor Parameters - V |
| Link |
NOC:Sensor Technologies: Physics, Fabrication, and Circuits |
Lecture 10 - Numerical Examples |
| Link |
NOC:Sensor Technologies: Physics, Fabrication, and Circuits |
Lecture 11 - Introduction: Physics of Sensors |
| Link |
NOC:Sensor Technologies: Physics, Fabrication, and Circuits |
Lecture 12 - Capacitive Sensor Architecture |
| Link |
NOC:Sensor Technologies: Physics, Fabrication, and Circuits |
Lecture 13 - Different Types of Capacitive Sensors |
| Link |
NOC:Sensor Technologies: Physics, Fabrication, and Circuits |
Lecture 14 - Thermal Sensors Basics |
| Link |
NOC:Sensor Technologies: Physics, Fabrication, and Circuits |
Lecture 15 - Dynamic Condition of Thermal Sensors |
| Link |
NOC:Sensor Technologies: Physics, Fabrication, and Circuits |
Lecture 16 - Classification of Thermal Sensors |
| Link |
NOC:Sensor Technologies: Physics, Fabrication, and Circuits |
Lecture 17 - Chemical Sensor Basics |
| Link |
NOC:Sensor Technologies: Physics, Fabrication, and Circuits |
Lecture 18 - Electrochemical Sensors |
| Link |
NOC:Sensor Technologies: Physics, Fabrication, and Circuits |
Lecture 19 - Impedimetric Sensors |
| Link |
NOC:Sensor Technologies: Physics, Fabrication, and Circuits |
Lecture 20 - Numerical Examples |
| Link |
NOC:Sensor Technologies: Physics, Fabrication, and Circuits |
Lecture 21 - Physics of Optical Sensors |
| Link |
NOC:Sensor Technologies: Physics, Fabrication, and Circuits |
Lecture 22 - Physics of Magnetic Sensors |
| Link |
NOC:Sensor Technologies: Physics, Fabrication, and Circuits |
Lecture 23 - Physics of Acoustic Sensors |
| Link |
NOC:Sensor Technologies: Physics, Fabrication, and Circuits |
Lecture 24 - Physics of Microfluidic Sensors |
| Link |
NOC:Sensor Technologies: Physics, Fabrication, and Circuits |
Lecture 25 - Various Sensor Geometries and Examples |
| Link |
NOC:Sensor Technologies: Physics, Fabrication, and Circuits |
Lecture 26 - Microfabrication Technologies |
| Link |
NOC:Sensor Technologies: Physics, Fabrication, and Circuits |
Lecture 27 - Deposition Techniques |
| Link |
NOC:Sensor Technologies: Physics, Fabrication, and Circuits |
Lecture 28 - Physical Vapor Deposition |
| Link |
NOC:Sensor Technologies: Physics, Fabrication, and Circuits |
Lecture 29 - Chemical Vapor Deposition |
| Link |
NOC:Sensor Technologies: Physics, Fabrication, and Circuits |
Lecture 30 - Patterning Techniques |
| Link |
NOC:Sensor Technologies: Physics, Fabrication, and Circuits |
Lecture 31 - Lithography Techniques |
| Link |
NOC:Sensor Technologies: Physics, Fabrication, and Circuits |
Lecture 32 - Basics of Etching Techniques |
| Link |
NOC:Sensor Technologies: Physics, Fabrication, and Circuits |
Lecture 33 - Dry Etching Techniques |
| Link |
NOC:Sensor Technologies: Physics, Fabrication, and Circuits |
Lecture 34 - Optical and Electron Microscopy |
| Link |
NOC:Sensor Technologies: Physics, Fabrication, and Circuits |
Lecture 35 - Other Microscopy Techniques |
| Link |
NOC:Sensor Technologies: Physics, Fabrication, and Circuits |
Lecture 36 - Sensor System: Basic Circuits |
| Link |
NOC:Sensor Technologies: Physics, Fabrication, and Circuits |
Lecture 37 - Amplifier Circuits |
| Link |
NOC:Sensor Technologies: Physics, Fabrication, and Circuits |
Lecture 38 - Instrumentation Amplifier |
| Link |
NOC:Sensor Technologies: Physics, Fabrication, and Circuits |
Lecture 39 - Filter Circuits |
| Link |
NOC:Sensor Technologies: Physics, Fabrication, and Circuits |
Lecture 40 - Sensor System: Experimental Demonstration |
| Link |
NOC:Optimal Control |
Lecture 1 - Introduction and Performance Index |
| Link |
NOC:Optimal Control |
Lecture 2 - Basic Concepts of Calculus of Variation |
| Link |
NOC:Optimal Control |
Lecture 3 - The Basic Variational Problem |
| Link |
NOC:Optimal Control |
Lecture 4 - Fixed End Point Problem |
| Link |
NOC:Optimal Control |
Lecture 5 - Free End Point Problem |
| Link |
NOC:Optimal Control |
Lecture 6 - Free End Point Problem (Continued...) |
| Link |
NOC:Optimal Control |
Lecture 7 - Free End Point Problem (Continued...) |
| Link |
NOC:Optimal Control |
Lecture 8 - Free End Point Problem (Continued...) |
| Link |
NOC:Optimal Control |
Lecture 9 - Optimum of Functions with Conditions |
| Link |
NOC:Optimal Control |
Lecture 10 - Optimum of Functions with Conditions (Lagrange Multiplier Method) |
| Link |
NOC:Optimal Control |
Lecture 11 - Optimum of Functional with Conditions |
| Link |
NOC:Optimal Control |
Lecture 12 - Variational Approach to Optimal Control Systems |
| Link |
NOC:Optimal Control |
Lecture 13 - Variational Approach to Optimal Control Systems (Continued...) |
| Link |
NOC:Optimal Control |
Lecture 14 - Linear Quadratic Optimal Control Systems |
| Link |
NOC:Optimal Control |
Lecture 15 - Linear Quadratic Optimal Control Systems (Continued...) |
| Link |
NOC:Optimal Control |
Lecture 16 - Linear Quadratic Optimal Control Systems (Continued...) |
| Link |
NOC:Optimal Control |
Lecture 17 - Linear Quadratic Optimal Control Systems (Continued...) |
| Link |
NOC:Optimal Control |
Lecture 18 - Linear Quadratic Optimal Control Systems (Continued...) |
| Link |
NOC:Optimal Control |
Lecture 19 - Linear Quadratic Optimal Control Systems (Optimal Value of Performance Index) |
| Link |
NOC:Optimal Control |
Lecture 20 - Infinite Horizon Regulator Problem |
| Link |
NOC:Optimal Control |
Lecture 21 - Infinite Horizon Regulator Problem (Continued...) |
| Link |
NOC:Optimal Control |
Lecture 22 - Analytical Solution of MDRE - State Transition Matrix Approach |
| Link |
NOC:Optimal Control |
Lecture 23 - Analytical Solution of MDRE - Similarity Transformation Approach |
| Link |
NOC:Optimal Control |
Lecture 24 - Analytical Solution of MDRE - Similarity Transformation Approach (Continued...) |
| Link |
NOC:Optimal Control |
Lecture 25 - Frequency Domain Interpretation of LQR - Linear Time Invariant System |
| Link |
NOC:Optimal Control |
Lecture 26 - Frequency Domain Interpretation of LQR - Linear Time Invariant System (Continued...) |
| Link |
NOC:Optimal Control |
Lecture 27 - LQR with a Specified Degree of Stability |
| Link |
NOC:Optimal Control |
Lecture 28 - Inverse Matrix Riccati Equation |
| Link |
NOC:Optimal Control |
Lecture 29 - Linear Quadratic Tracking System |
| Link |
NOC:Optimal Control |
Lecture 30 - Discrete-Time Optimal Control Systems |
| Link |
NOC:Optimal Control |
Lecture 31 - Discrete-Time Optimal Control Systems (Continued...) |
| Link |
NOC:Optimal Control |
Lecture 32 - Discrete-Time Optimal Control Systems (Continued...) |
| Link |
NOC:Optimal Control |
Lecture 33 - Matrix Discrete Riccati Equation |
| Link |
NOC:Optimal Control |
Lecture 34 - Analytical Solution of Matrix Difference Riccati Equation |
| Link |
NOC:Optimal Control |
Lecture 35 - Analytical Solution of Matrix Difference Riccati Equation (Continued...) |
| Link |
NOC:Optimal Control |
Lecture 36 - Optimal Control using Dynamic Programming |
| Link |
NOC:Optimal Control |
Lecture 37 - The Hamilton-Jacobi-Bellman (HJB) Equation |
| Link |
NOC:Optimal Control |
Lecture 38 - LQR System Using HJB Equation |
| Link |
NOC:Optimal Control |
Lecture 39 - Time Optimal Control System - Constrained Input |
| Link |
NOC:Optimal Control |
Lecture 40 - Time Optimal Control System (Continued...) |
| Link |
NOC:Electrical Distribution System Analysis |
Lecture 1 - Introduction to Electrical Distribution System |
| Link |
NOC:Electrical Distribution System Analysis |
Lecture 2 - Components of Distribution System Substation and Busbar Layouts |
| Link |
NOC:Electrical Distribution System Analysis |
Lecture 3 - Components of Distribution System and Feeder Configurations |
| Link |
NOC:Electrical Distribution System Analysis |
Lecture 4 - Nature of Loads in a Distribution System |
| Link |
NOC:Electrical Distribution System Analysis |
Lecture 5 - Load Allocation in a Distribution System |
| Link |
NOC:Electrical Distribution System Analysis |
Lecture 6 - K Factors and Their Applications |
| Link |
NOC:Electrical Distribution System Analysis |
Lecture 7 - Analysis of Uniformly Distributed |
| Link |
NOC:Electrical Distribution System Analysis |
Lecture 8 - Lumping Loads in Geometric Configurations Rectangular |
| Link |
NOC:Electrical Distribution System Analysis |
Lecture 9 - Lumping Loads in Geometric Configurations Triangular |
| Link |
NOC:Electrical Distribution System Analysis |
Lecture 10 - Impedance of Distribution Lines and Feeders - Part I |
| Link |
NOC:Electrical Distribution System Analysis |
Lecture 11 - Series Impedance of Distribution Lines and Feeders - Part II |
| Link |
NOC:Electrical Distribution System Analysis |
Lecture 12 - Models of Distribution Lines and Cables |
| Link |
NOC:Electrical Distribution System Analysis |
Lecture 13 - Modelling of Single-Phase and Three-Phase Transformers |
| Link |
NOC:Electrical Distribution System Analysis |
Lecture 14 - Modelling of Three-Phase Transformers - Part I |
| Link |
NOC:Electrical Distribution System Analysis |
Lecture 15 - Modelling of Three-Phase Transformers - Part II |
| Link |
NOC:Electrical Distribution System Analysis |
Lecture 16 - Modelling of Three-Phase Transformers - Part III |
| Link |
NOC:Electrical Distribution System Analysis |
Lecture 17 - Modelling of Three-Phase Transformers - Part IV |
| Link |
NOC:Electrical Distribution System Analysis |
Lecture 18 - Modelling of Step Voltage Regulators - Part I |
| Link |
NOC:Electrical Distribution System Analysis |
Lecture 19 - Modelling of Step Voltage Regulators - Part II |
| Link |
NOC:Electrical Distribution System Analysis |
Lecture 20 - Modelling of Step Voltage Regulators - Part III |
| Link |
NOC:Electrical Distribution System Analysis |
Lecture 21 - Modelling of Step Voltage Regulators - Part IV |
| Link |
NOC:Electrical Distribution System Analysis |
Lecture 22 - Load Models in Distribution System - Part I |
| Link |
NOC:Electrical Distribution System Analysis |
Lecture 23 - Load Models in Distribution System - Part II |
| Link |
NOC:Electrical Distribution System Analysis |
Lecture 24 - Modelling of Distributed Generation |
| Link |
NOC:Electrical Distribution System Analysis |
Lecture 25 - Applications and Modeling of Capacitor Banks |
| Link |
NOC:Electrical Distribution System Analysis |
Lecture 26 - Summary of Modelling of Distribution System Components |
| Link |
NOC:Electrical Distribution System Analysis |
Lecture 27 - Backward/Forward Sweep Load Flow Analysis - Part I |
| Link |
NOC:Electrical Distribution System Analysis |
Lecture 28 - Backward/Forward Sweep Load Flow Analysis - Part II |
| Link |
NOC:Electrical Distribution System Analysis |
Lecture 29 - Direct Approach Based Load Flow Analysis - Part I |
| Link |
NOC:Electrical Distribution System Analysis |
Lecture 30 - Direct Approach Based Load Flow Analysis - Part II |
| Link |
NOC:Electrical Distribution System Analysis |
Lecture 31 - Direct Approach Based Load Flow Analysis - Part III |
| Link |
NOC:Electrical Distribution System Analysis |
Lecture 32 - Direct Approach Based Load Flow Analysis: Weakly Meshed System |
| Link |
NOC:Electrical Distribution System Analysis |
Lecture 33 - Gauss Implicit Z-matrix Method |
| Link |
NOC:Electrical Distribution System Analysis |
Lecture 34 - Sequence Component Based Short Circuit Analysis |
| Link |
NOC:Electrical Distribution System Analysis |
Lecture 35 - Thevenin's Equivalent and Phase Variable Based Short Circuit Analysis |
| Link |
NOC:Electrical Distribution System Analysis |
Lecture 36 - Direct Approach for Short-Circuit Analysis: Introduction and LG Fault |
| Link |
NOC:Electrical Distribution System Analysis |
Lecture 37 - Direct Approach for Short-Circuit Analysis: LLG and LLLG Fault |
| Link |
NOC:Electrical Distribution System Analysis |
Lecture 38 - Direct Approach for Short-Circuit Analysis: LL Fault and Examples |
| Link |
NOC:Electrical Distribution System Analysis |
Lecture 39 - Direct Approach for Short-Circuit Analysis: Weakly Meshed System |
| Link |
NOC:Electrical Distribution System Analysis |
Lecture 40 - Applications of Distribution System Analysis |
| Link |
NOC:Introduction to Smart Grid |
Lecture 1 - Introduction to Smart Grid - I |
| Link |
NOC:Introduction to Smart Grid |
Lecture 2 - Introduction to Smart Grid - II |
| Link |
NOC:Introduction to Smart Grid |
Lecture 3 - Architecture of smart grid system |
| Link |
NOC:Introduction to Smart Grid |
Lecture 4 - Standards for smart grid system |
| Link |
NOC:Introduction to Smart Grid |
Lecture 5 - Elements and Technologies of smart grid system - I |
| Link |
NOC:Introduction to Smart Grid |
Lecture 6 - Elements and Technologies of smart grid system - II |
| Link |
NOC:Introduction to Smart Grid |
Lecture 7 - Distributed Generation Resources - I |
| Link |
NOC:Introduction to Smart Grid |
Lecture 8 - Distributed Generation Resources - II |
| Link |
NOC:Introduction to Smart Grid |
Lecture 9 - Distributed Generation Resources - III |
| Link |
NOC:Introduction to Smart Grid |
Lecture 10 - Distributed Generation Resources - IV |
| Link |
NOC:Introduction to Smart Grid |
Lecture 11 - Wide Area Monitoring System - I |
| Link |
NOC:Introduction to Smart Grid |
Lecture 12 - Wide Area Monitoring System - II |
| Link |
NOC:Introduction to Smart Grid |
Lecture 13 - Phasor Estimation - I |
| Link |
NOC:Introduction to Smart Grid |
Lecture 14 - Phasor Estimation - II |
| Link |
NOC:Introduction to Smart Grid |
Lecture 15 - Digital Relays for Smart Grid Protection |
| Link |
NOC:Introduction to Smart Grid |
Lecture 16 - Islanding Detection Techniques - I |
| Link |
NOC:Introduction to Smart Grid |
Lecture 17 - Islanding Detection Techniques - II |
| Link |
NOC:Introduction to Smart Grid |
Lecture 18 - Islanding Detection Techniques - III |
| Link |
NOC:Introduction to Smart Grid |
Lecture 19 - Smart Grid Protection - I |
| Link |
NOC:Introduction to Smart Grid |
Lecture 20 - Smart Grid Protection - II |
| Link |
NOC:Introduction to Smart Grid |
Lecture 21 - Smart Grid Protection - III |
| Link |
NOC:Introduction to Smart Grid |
Lecture 22 - Smart Grid Protection - IV |
| Link |
NOC:Introduction to Smart Grid |
Lecture 23 - Modelling of Storage Devices |
| Link |
NOC:Introduction to Smart Grid |
Lecture 24 - Modelling of DC Smart Grid Components |
| Link |
NOC:Introduction to Smart Grid |
Lecture 25 - Operation and Control of AC Microgrid - I |
| Link |
NOC:Introduction to Smart Grid |
Lecture 26 - Operation and Control of AC Microgrid - Il |
| Link |
NOC:Introduction to Smart Grid |
Lecture 27 - Operation and Control of DC Microgrid - I |
| Link |
NOC:Introduction to Smart Grid |
Lecture 28 - Operation and Control of DC Microgrid - II |
| Link |
NOC:Introduction to Smart Grid |
Lecture 29 - Operation and Control of AC-DC hybrid Microgrid - I |
| Link |
NOC:Introduction to Smart Grid |
Lecture 30 - Operation and Control of AC-DC hybrid Microgrid - II |
| Link |
NOC:Introduction to Smart Grid |
Lecture 31 - Simulation and Case Study of AC Microgrid |
| Link |
NOC:Introduction to Smart Grid |
Lecture 32 - Simulation and Case Study of DC Microgrid |
| Link |
NOC:Introduction to Smart Grid |
Lecture 33 - Simulation and Case Study of AC-DC Hybrid Microgrid |
| Link |
NOC:Introduction to Smart Grid |
Lecture 34 - Demand Side Management in Smart Grid |
| Link |
NOC:Introduction to Smart Grid |
Lecture 35 - Demand Response Analysis of Smart Grid |
| Link |
NOC:Introduction to Smart Grid |
Lecture 36 - Energy Management |
| Link |
NOC:Introduction to Smart Grid |
Lecture 37 - Design of Smart Grid and Practical Smart Grid Case Study - I |
| Link |
NOC:Introduction to Smart Grid |
Lecture 38 - Design of Smart Grid and Practical Smart Grid Case Study - II |
| Link |
NOC:Introduction to Smart Grid |
Lecture 39 - System Analysis of AC/DC Smart Grid |
| Link |
NOC:Introduction to Smart Grid |
Lecture 40 - Conclusions |
| Link |
NOC:Facts Devices |
Lecture 1 - Introduction - I |
| Link |
NOC:Facts Devices |
Lecture 2 - Introduction - II |
| Link |
NOC:Facts Devices |
Lecture 3 - Switch Realization |
| Link |
NOC:Facts Devices |
Lecture 4 - PWM - I |
| Link |
NOC:Facts Devices |
Lecture 5 - PWM - II |
| Link |
NOC:Facts Devices |
Lecture 6 - Closed Loop Control |
| Link |
NOC:Facts Devices |
Lecture 7 - Multi Level Inverter - I |
| Link |
NOC:Facts Devices |
Lecture 8 - Multi Level Inverter - II |
| Link |
NOC:Facts Devices |
Lecture 9 - Multi Level Inverter - III |
| Link |
NOC:Facts Devices |
Lecture 10 - Shunt Compensator Analysis |
| Link |
NOC:Facts Devices |
Lecture 11 - Shunt Compensator TCR and TSC - I |
| Link |
NOC:Facts Devices |
Lecture 12 - Shunt Compensator TCR and TSC - II |
| Link |
NOC:Facts Devices |
Lecture 13 - Static Var Compensator - I |
| Link |
NOC:Facts Devices |
Lecture 14 - Static Var Compensator - II |
| Link |
NOC:Facts Devices |
Lecture 15 - STATCOM - I |
| Link |
NOC:Facts Devices |
Lecture 16 - STATCOM - II |
| Link |
NOC:Facts Devices |
Lecture 17 - STATCOM/SVC Comparisons |
| Link |
NOC:Facts Devices |
Lecture 18 - External Control Design of Static Var Compensator |
| Link |
NOC:Facts Devices |
Lecture 19 - DSTATCOM |
| Link |
NOC:Facts Devices |
Lecture 20 - Design of DSTATCOM |
| Link |
NOC:Facts Devices |
Lecture 21 - Series Compensator - I |
| Link |
NOC:Facts Devices |
Lecture 22 - Series Compensator - II |
| Link |
NOC:Facts Devices |
Lecture 23 - GCSC and SSSC |
| Link |
NOC:Facts Devices |
Lecture 24 - SSSC - II |
| Link |
NOC:Facts Devices |
Lecture 25 - SSSC - III and TSSC |
| Link |
NOC:Facts Devices |
Lecture 26 - TSSC - II and TCSC |
| Link |
NOC:Facts Devices |
Lecture 27 - TCSC Characteristics and Control |
| Link |
NOC:Facts Devices |
Lecture 28 - Voltage and Phase Angle Regulation |
| Link |
NOC:Facts Devices |
Lecture 29 - Voltage and Phase Angle Regulator Device - I |
| Link |
NOC:Facts Devices |
Lecture 30 - Voltage and Phase Angle Regulator Device - II |
| Link |
NOC:Facts Devices |
Lecture 31 - UPQC Introduction and Classification |
| Link |
NOC:Facts Devices |
Lecture 32 - UPQC Classification - I |
| Link |
NOC:Facts Devices |
Lecture 33 - Operation and Control of UPQC - II |
| Link |
NOC:Facts Devices |
Lecture 34 - Operation and Control of UPQC - III |
| Link |
NOC:Facts Devices |
Lecture 35 - UPFC |
| Link |
NOC:Facts Devices |
Lecture 36 - Control Structure of UPFC |
| Link |
NOC:Facts Devices |
Lecture 37 - Comparison of UPFC with PAR and Series Compensators |
| Link |
NOC:Facts Devices |
Lecture 38 - Interline Power Flow Controller (IPFC) - I |
| Link |
NOC:Facts Devices |
Lecture 39 - Interline Power Flow Controller (IPFC) - II |
| Link |
NOC:Facts Devices |
Lecture 40 - Practical Application and Conclusion |
| Link |
NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink |
Lecture 1 - Introduction to State Space |
| Link |
NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink |
Lecture 2 - State Space Representation |
| Link |
NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink |
Lecture 3 - State Space Representation: Companion Form (Controllable Canonical Form) |
| Link |
NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink |
Lecture 4 - State Space Representation: Extended Controllable Canonical Form |
| Link |
NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink |
Lecture 5 - State Space Representation: Observable Canonical Form |
| Link |
NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink |
Lecture 6 - State Space Representation: Diagonal Canonical Form - Part I |
| Link |
NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink |
Lecture 7 - State Space Representation: Diagonal Canonical Form - Part II |
| Link |
NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink |
Lecture 8 - State Space Representation: Jordan Canonical Form |
| Link |
NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink |
Lecture 9 - State Space Representation: Numerical Examples on State space Modelling - Part I |
| Link |
NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink |
Lecture 10 - State Space Representation: Numerical Examples on State space Modelling - Part II |
| Link |
NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink |
Lecture 11 - Modelling of Mechanical Systems in State Space |
| Link |
NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink |
Lecture 12 - Modelling of DC Servo Motor - Part I |
| Link |
NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink |
Lecture 13 - Modelling of DC Servo Motor - Part II |
| Link |
NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink |
Lecture 14 - Determination of Transfer Function from State Space Model - Part I |
| Link |
NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink |
Lecture 15 - Determination of Transfer Function from State Space Model - Part II |
| Link |
NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink |
Lecture 16 - Stability Analysis in State Space: Concept of Eigenvalues and Eigenvectors - Part I |
| Link |
NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink |
Lecture 17 - Stability Analysis in State Space - Part II |
| Link |
NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink |
Lecture 18 - Stability Analysis in State Space: Lyapunov Stability Analysis (Sylvester’s Criterion) - Part III |
| Link |
NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink |
Lecture 19 - Stability Analysis in State Space: Lyapunov Stability Analysis (Stability Criterion) - PartIV |
| Link |
NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink |
Lecture 20 - Stability Analysis in State Space: Lyapunov Stability Analysis (Direct Method) - Part V |
| Link |
NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink |
Lecture 21 - Concept of Diagonalization |
| Link |
NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink |
Lecture 22 - Solution of State Equation |
| Link |
NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink |
Lecture 23 - Solution of State Equation (Forced System) |
| Link |
NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink |
Lecture 24 - Steady State Error for State Space System |
| Link |
NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink |
Lecture 25 - State Transition Matrix - Part I |
| Link |
NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink |
Lecture 26 - State Transition Matrix - Part II |
| Link |
NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink |
Lecture 27 - State Transition Matrix using Cayley-Hamilton Theorem - Part III |
| Link |
NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink |
Lecture 28 - MATLAB Programming with State Space |
| Link |
NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink |
Lecture 29 - Controllability in State Space - Part I |
| Link |
NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink |
Lecture 30 - Controllability in State Space - Part II |
| Link |
NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink |
Lecture 31 - Observability in State Space - Part I |
| Link |
NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink |
Lecture 32 - Observability in State Space - Part II |
| Link |
NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink |
Lecture 33 - Pole Placement by State Feedback - Part I |
| Link |
NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink |
Lecture 34 - Pole Placement by State Feedback - Part II |
| Link |
NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink |
Lecture 35 - Pole Placement by State Feedback - Part III |
| Link |
NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink |
Lecture 36 - Tracking Problem in State Feedback Design - Part I |
| Link |
NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink |
Lecture 37 - Tracking Problem in State Feedback Design - Part II |
| Link |
NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink |
Lecture 38 - State Observer Design - Part I |
| Link |
NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink |
Lecture 39 - State Observer Design - Part II |
| Link |
NOC:Advanced Linear Continuous Control Systems: Applications with MATLAB Programming and Simulink |
Lecture 40 - State Observer Design - Part III |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 1 - Modeling of Power System Components |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 2 - Modeling of Power System Components (Continued...) |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 3 - Bus Admittance Matrix |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 4 - Bus Admittance Matrix with Mutual Impedance |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 5 - Bus Admittance Matrix with mutual impedance (Continued...) |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 6 - Power flow equations and classification of buses |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 7 - Basic Gauss - Seidel Numerical Method |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 8 - Gauss - Seidel Load Flow (GSLF) |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 9 - GSLF with Multiple Generators |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 10 - Example of GSLF |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 11 - Basics of Newton Raphson Numerical Method |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 12 - Newton - Raphson Load Flow (NRLF) in Polar Co-Ordinate |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 13 - NRLF in polar co-ordinate (Continued...) |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 14 - NRLF in polar co-ordinate (Continued...) |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 15 - NRLF (Polar) Algorithm and Example |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 16 - NRLF in rectangular coordinate |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 17 - NRLF in rectangular coordinate (Continued...) |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 18 - NRLF in rectangular coordinate (Continued...) |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 19 - Example of NRLF (Rectangular) Method |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 20 - Fast decoupled load flow (FDLF) |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 21 - FDLF (Continued...) |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 22 - FDLF (Continued...) |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 23 - AC- DC Load Flow |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 24 - AC- DC Load Flow (Continued...) |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 25 - AC- DC Load Flow (Continued...) |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 26 - Sparsity and Gaussian Elimination |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 27 - Gaussian Elimination Method |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 28 - Example of Gaussian Elimination Method |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 29 - Gaussian Elimination and Optimal Ordering |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 30 - Triangular Factorization |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 31 - LU Decomposition |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 32 - Introduction to Contingency Analysis |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 33 - Linear Sensitivity Factor |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 34 - Linear Sensitivity Factors (Continued...) |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 35 - Line outage sensitivity factor |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 36 - Line outage sensitivity factor (Continued...) |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 37 - Line outage sensitivity factor (Continued...) |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 38 - State Estimation Technique |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 39 - Weighted Least Square (WLS) Method |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 40 - WLS (Continued...) |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 41 - WLS Examples |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 42 - Error Analysis |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 43 - Error Analysis (Continued...) |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 44 - Bad Data Detection |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 45 - Power system state estimation |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 46 - Power system state estimation (Continued...) |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 47 - Power system state estimation (Continued...) |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 48 - Power system state estimation (Continued...) |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 49 - Fault Analysis |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 50 - Fault Analysis (Continued...) |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 51 - Fault Analysis (Continued...) |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 52 - Fault Analysis (Continued...) |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 53 - Fault Analysis (Continued...) |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 54 - Fault Analysis (Continued...) |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 55 - Fault Analysis (Continued...) |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 56 - Fault Analysis (Continued...) |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 57 - Fault Analysis (Continued...) |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 58 - Fault Analysis (Continued...) |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 59 - Fault Analysis (Continued...) |
| Link |
NOC:Computer Aided Power System Analysis |
Lecture 60 - Fault Analysis (Continued...) |
| Link |
NOC:Advance Power Electronics and Control |
Lecture 1 - Introduction |
| Link |
NOC:Advance Power Electronics and Control |
Lecture 2 - Basic Concept of Switches |
| Link |
NOC:Advance Power Electronics and Control |
Lecture 3 - Device Physics - I |
| Link |
NOC:Advance Power Electronics and Control |
Lecture 4 - Device Physics - II |
| Link |
NOC:Advance Power Electronics and Control |
Lecture 5 - Device Physics - III |
| Link |
NOC:Advance Power Electronics and Control |
Lecture 6 - Device Physics - IV |
| Link |
NOC:Advance Power Electronics and Control |
Lecture 7 - Application and Analysis of Switches - I |
| Link |
NOC:Advance Power Electronics and Control |
Lecture 8 - Application and Analysis of Switches - II |
| Link |
NOC:Advance Power Electronics and Control |
Lecture 9 - Single Phase Converter |
| Link |
NOC:Advance Power Electronics and Control |
Lecture 10 - Single Phase Converters - II |
| Link |
NOC:Advance Power Electronics and Control |
Lecture 11 - Single Phase Converters - III |
| Link |
NOC:Advance Power Electronics and Control |
Lecture 12 - Three Phase Converters - I |
| Link |
NOC:Advance Power Electronics and Control |
Lecture 13 - Three Phase Converters - II |
| Link |
NOC:Advance Power Electronics and Control |
Lecture 14 - Multipulse Converters II |
| Link |
NOC:Advance Power Electronics and Control |
Lecture 15 - Effect of Source Inductance and PWM Rectifiers |
| Link |
NOC:Advance Power Electronics and Control |
Lecture 16 - PWM Rectifiers - II |
| Link |
NOC:Advance Power Electronics and Control |
Lecture 17 - PWM Rectifiers - III and Power Factor Improvement Techniques |
| Link |
NOC:Advance Power Electronics and Control |
Lecture 18 - PWM Rectifiers - IV and Power Factor Improvement Techniques - II |
| Link |
NOC:Advance Power Electronics and Control |
Lecture 19 - Power Factor Improvement Techniques III and Non Isolated DC- DC Converters |
| Link |
NOC:Advance Power Electronics and Control |
Lecture 20 - Non Isolated DC- DC Converters - II |
| Link |
NOC:Advance Power Electronics and Control |
Lecture 21 - Non Isolated and Isolated DC- DC Converters and Choppers |
| Link |
NOC:Advance Power Electronics and Control |
Lecture 22 - Isolated DC-DC Converters and Choppers |
| Link |
NOC:Advance Power Electronics and Control |
Lecture 23 - Isolated DC-DC Converters - II |
| Link |
NOC:Advance Power Electronics and Control |
Lecture 24 - Isolated DC-DC Converters - III |
| Link |
NOC:Advance Power Electronics and Control |
Lecture 25 - Isolated DC-DC Converters - IV and VSI and CSI |
| Link |
NOC:Advance Power Electronics and Control |
Lecture 26 - VSI and CSI |
| Link |
NOC:Advance Power Electronics and Control |
Lecture 27 - VSI and CSI II and MLI |
| Link |
NOC:Advance Power Electronics and Control |
Lecture 28 - PWM Techniques II and MLI |
| Link |
NOC:Advance Power Electronics and Control |
Lecture 29 - MLI II and ZSI |
| Link |
NOC:Advance Power Electronics and Control |
Lecture 30 - ZSI II and Space Vector Modulation (SVM) |
| Link |
NOC:Advance Power Electronics and Control |
Lecture 31 - SVM II and AC to AC Converters |
| Link |
NOC:Advance Power Electronics and Control |
Lecture 32 - SVM III and AC to AC Converters |
| Link |
NOC:Advance Power Electronics and Control |
Lecture 33 - Cycloconverters and Matrix Converters |
| Link |
NOC:Advance Power Electronics and Control |
Lecture 34 - Matrix Converter - II |
| Link |
NOC:Advance Power Electronics and Control |
Lecture 35 - Matrix Converter - III and Power Quality Mitigation Devices |
| Link |
NOC:Advance Power Electronics and Control |
Lecture 36 - Power Quality Mitigation Devices - II |
| Link |
NOC:Advance Power Electronics and Control |
Lecture 37 - Linear and Non Linear Control in Power Electronics - I |
| Link |
NOC:Advance Power Electronics and Control |
Lecture 38 - Linear and Non Linear Control in Power Electronics - II |
| Link |
NOC:Advance Power Electronics and Control |
Lecture 39 - Non-Linear Control in Power Electronics |
| Link |
NOC:Advance Power Electronics and Control |
Lecture 40 - Application and Conclusion |
| Link |
NOC:CMOS Digital VLSI Design |
Lecture 1 - MOS Transistor Basics - I |
| Link |
NOC:CMOS Digital VLSI Design |
Lecture 2 - MOS Transistor Basics - II |
| Link |
NOC:CMOS Digital VLSI Design |
Lecture 3 - MOS Transistor Basics - III |
| Link |
NOC:CMOS Digital VLSI Design |
Lecture 4 - MOS Parasitics and SPICE Model |
| Link |
NOC:CMOS Digital VLSI Design |
Lecture 5 - CMOS Inverter Basics - I |
| Link |
NOC:CMOS Digital VLSI Design |
Lecture 6 - CMOS Inverter Basics - II |
| Link |
NOC:CMOS Digital VLSI Design |
Lecture 7 - CMOS Inverter Basics - III |
| Link |
NOC:CMOS Digital VLSI Design |
Lecture 8 - Power Analysis - I |
| Link |
NOC:CMOS Digital VLSI Design |
Lecture 9 - Power Analysis - II |
| Link |
NOC:CMOS Digital VLSI Design |
Lecture 10 - SPICE Simulation - I |
| Link |
NOC:CMOS Digital VLSI Design |
Lecture 11 - SPICE Simulation - II |
| Link |
NOC:CMOS Digital VLSI Design |
Lecture 12 - Combinational Logic Design - I |
| Link |
NOC:CMOS Digital VLSI Design |
Lecture 13 - Combinational Logic Design - II |
| Link |
NOC:CMOS Digital VLSI Design |
Lecture 14 - Combinational Logic Design - III |
| Link |
NOC:CMOS Digital VLSI Design |
Lecture 15 - Combinational Logic Design - IV |
| Link |
NOC:CMOS Digital VLSI Design |
Lecture 16 - Combinational Logic Design - V |
| Link |
NOC:CMOS Digital VLSI Design |
Lecture 17 - Combinational Logic Design - VI |
| Link |
NOC:CMOS Digital VLSI Design |
Lecture 18 - Combinational Logic Design - VII |
| Link |
NOC:CMOS Digital VLSI Design |
Lecture 19 - Combinational Logic Design - VIII |
| Link |
NOC:CMOS Digital VLSI Design |
Lecture 20 - Combinational Logic Design - IX |
| Link |
NOC:CMOS Digital VLSI Design |
Lecture 21 - Combinational Logic Design - X |
| Link |
NOC:CMOS Digital VLSI Design |
Lecture 22 - Logical Efforts - I |
| Link |
NOC:CMOS Digital VLSI Design |
Lecture 23 - Logical Efforts - II |
| Link |
NOC:CMOS Digital VLSI Design |
Lecture 24 - Logical Efforts - III |
| Link |
NOC:CMOS Digital VLSI Design |
Lecture 25 - Sequential Logic Design - I |
| Link |
NOC:CMOS Digital VLSI Design |
Lecture 26 - Sequential Logic Design - II |
| Link |
NOC:CMOS Digital VLSI Design |
Lecture 27 - Sequential Logic Design - III |
| Link |
NOC:CMOS Digital VLSI Design |
Lecture 28 - Sequential Logic Design - IV |
| Link |
NOC:CMOS Digital VLSI Design |
Lecture 29 - Sequential Logic Design - V |
| Link |
NOC:CMOS Digital VLSI Design |
Lecture 30 - Sequential Logic Design - VI |
| Link |
NOC:CMOS Digital VLSI Design |
Lecture 31 - Sequential Logic Design - VII |
| Link |
NOC:CMOS Digital VLSI Design |
Lecture 32 - Sequential Logic Design - VIII |
| Link |
NOC:CMOS Digital VLSI Design |
Lecture 33 - Clocking Strategies for Sequential Design - I |
| Link |
NOC:CMOS Digital VLSI Design |
Lecture 34 - Clocking Strategies for Sequential Design - II |
| Link |
NOC:CMOS Digital VLSI Design |
Lecture 35 - Clocking Strategies for Sequential Design - III |
| Link |
NOC:CMOS Digital VLSI Design |
Lecture 36 - Clocking Strategies for Sequential Design - IV |
| Link |
NOC:CMOS Digital VLSI Design |
Lecture 37 - Sequential Logic Design - IX |
| Link |
NOC:CMOS Digital VLSI Design |
Lecture 38 - Clocking Strategies for Sequential Design - V |
| Link |
NOC:CMOS Digital VLSI Design |
Lecture 39 - Concept of Memory and its Designing - I |
| Link |
NOC:CMOS Digital VLSI Design |
Lecture 40 - Concept of Memory and its Designing - II |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 1 - Bipolar Junction Transistor : Physical structure and Modes of Operation |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 2 - Bipolar Junction Transistor : Modes of operation - I |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 3 - Bipolar Junction Transistor : Modes of operation - II |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 4 - BJT Operation in active mode Circuit symbol and conventions - I |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 5 - BJT Operation in active mode Circuit symbol and conventions - II |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 6 - BJT as an amplifier small circuit model - I |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 7 - BJT as an amplifier small circuit model - II |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 8 - BJT Small Signal Circuit Model - I |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 9 - BJT Small Signal Circuit Model - II |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 10 - BJT as a switch and Ebers Moll Model |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 11 - Simple BJT Inverter and second order effects |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 12 - BJT Second order effects - I |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 13 - BJT Second order effects - II |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 14 - MOS Transistor basics - I |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 15 - MOS Transistor basics - II |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 16 - MOS Transistor basics - III |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 17 - MOS Parasitic and SPICE Model |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 18 - CMOS Inverter Basics - I |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 19 - CMOS Inverter Basics - II |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 20 - CMOS Inverter Basics - III |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 21 - Power Analysis - I |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 22 - Logical Efforts - I |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 23 - Fabrication-Process - I |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 24 - Fabrication-Process - II |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 25 - Biasing of Amplifier and its behaviour as an Analog switch - I |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 26 - Biasing of Amplifier and its behaviour as an Analog switch - II |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 27 - Biasing of Amplifier and its behaviour as an Analog switch - III |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 28 - CMOS CS/CG/CD Amplifier Configuration |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 29 - CMOS CG/CD Amplifier Configuration |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 30 - Internal CAP Models and high frequency Modelling - I |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 31 - Internal CAP Models and high frequency Modelling - II |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 32 - JFET, Structure and Operation |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 33 - Multistage and Differential Amplifier - I |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 34 - Multistage and Differential Amplifier - II |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 35 - MOS Differential Amplifier - I |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 36 - MOS Differential Amplifier - II |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 37 - Small signal operation and Differential Amplifiers - I |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 38 - Small signal operation and Differential Amplifiers - II |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 39 - Multistage Amplifier with SPICE Simulation |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 40 - S-Domain Analysis, Transfer Function, Poles and Zeros - I |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 41 - S-Domain Analysis, Transfer Function, Poles and Zeros - II |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 42 - High Frequency response of CS and CE Amplifier |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 43 - High Frequency response of CC and SF Configuration |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 44 - Frequency response of Differential Amplifier |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 45 - General Feedback Structure and properties of negative Feedback |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 46 - Basic Feedback Topologies |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 47 - Design of feedback amplifier for all configuration |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 48 - Stability and amplifier poles |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 49 - Bode plots and Frequency Plot |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 50 - Ideal Operational Amplifier and its terminal |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 51 - Op-amp as a Integrator and Differentiator |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 52 - Large Signal Operation of Op-amp and second order effects |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 53 - Combinational logic design - I |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 54 - Combinational logic design - II |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 55 - Combinational logic design - III |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 56 - Combinational logic design - IV |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 57 - Sequential logic design - I |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 58 - Clocking strategies For Sequential design - I |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 59 - Clocking strategies For Sequential design - II |
| Link |
NOC:Microelectronics: Devices to Circuits |
Lecture 60 - Memory Design |
| Link |
NOC:DC Microgrid |
Lecture 1 - Overview of Microgrids |
| Link |
NOC:DC Microgrid |
Lecture 2 - Concept of Microgrids |
| Link |
NOC:DC Microgrid |
Lecture 3 - Microgrid and distributed generation |
| Link |
NOC:DC Microgrid |
Lecture 4 - Microgrid vs Conventional Power System |
| Link |
NOC:DC Microgrid |
Lecture 5 - AC and DC Microgrid with Distributed Energy Resources (AC Microgrid Part) |
| Link |
NOC:DC Microgrid |
Lecture 6 - AC and DC Microgrid with Distributed Energy Resources (AC Microgrid Part) (Continued...) |
| Link |
NOC:DC Microgrid |
Lecture 7 - Power Electronics for Microgrid |
| Link |
NOC:DC Microgrid |
Lecture 8 - Power Electronic Converters in Microgrid Applications |
| Link |
NOC:DC Microgrid |
Lecture 9 - Power Electronic Converters in Microgrid Applications (Power Electronic for Interfacing ) |
| Link |
NOC:DC Microgrid |
Lecture 10 - Power Electronic Converters in Microgrid Applications (Converter Modulation Techniques) |
| Link |
NOC:DC Microgrid |
Lecture 11 - Modeling of converters in microgrid power system (AC/DC and DC/AC Converters Modeling) |
| Link |
NOC:DC Microgrid |
Lecture 12 - Modeling of Power Converters in Microgrid Power System (DC/DC Converter Modeling and Control) |
| Link |
NOC:DC Microgrid |
Lecture 13 - Modeling of Renewable Energy Resources (Modeling of Wind Energy System) |
| Link |
NOC:DC Microgrid |
Lecture 14 - Modeling of Renewable Energy Resources (Modeling of Photovoltaic System) |
| Link |
NOC:DC Microgrid |
Lecture 15 - Modeling of Energy Storage System |
| Link |
NOC:DC Microgrid |
Lecture 16 - Microgrid Dynamics and Modeling |
| Link |
NOC:DC Microgrid |
Lecture 17 - Microgrid Dynamics and Modeling (Continued...) |
| Link |
NOC:DC Microgrid |
Lecture 18 - Microgrid Operation Modes and Standards - Part I |
| Link |
NOC:DC Microgrid |
Lecture 19 - Microgrid Operation Modes and Standards - Part II |
| Link |
NOC:DC Microgrid |
Lecture 20 - Microgrid Control Architectures |
| Link |
NOC:DC Microgrid |
Lecture 21 - Microgrid Control Architectures (Continued...) |
| Link |
NOC:DC Microgrid |
Lecture 22 - Intelligent Microgrid Operation and Control |
| Link |
NOC:DC Microgrid |
Lecture 23 - Intelligent Microgrid Operation and Control (Continued...) |
| Link |
NOC:DC Microgrid |
Lecture 24 - Intelligent Microgrid Operation and Control (Continued...) |
| Link |
NOC:DC Microgrid |
Lecture 25 - Energy Management in Microgrid System (Continued...) |
| Link |
NOC:DC Microgrid |
Lecture 26 - DC Microgrid System Architecture and AC Interface |
| Link |
NOC:DC Microgrid |
Lecture 27 - DC Microgrid System Architecture and AC Interface (Continued...) |
| Link |
NOC:DC Microgrid |
Lecture 28 - DC Microgrid System Architecture and AC Interface (Continued...) |
| Link |
NOC:DC Microgrid |
Lecture 29 - DC Microgrid Dynamics and Modeling |
| Link |
NOC:DC Microgrid |
Lecture 30 - DC Microgrid Dynamics and Modeling (Continued...) |
| Link |
NOC:DC Microgrid |
Lecture 31 - Control of DC Microgrid System |
| Link |
NOC:DC Microgrid |
Lecture 32 - Control of DC Microgrid System (Continued...) |
| Link |
NOC:DC Microgrid |
Lecture 33 - Applications of DC Microgrids |
| Link |
NOC:DC Microgrid |
Lecture 34 - Stability in Microgrid |
| Link |
NOC:DC Microgrid |
Lecture 35 - Stability Analysis of DC Microgrid |
| Link |
NOC:DC Microgrid |
Lecture 36 - Stability Analysis of DC Microgrid (Continued...) |
| Link |
NOC:DC Microgrid |
Lecture 37 - DC Microgrid stabilization strategies (Passive damping method) |
| Link |
NOC:DC Microgrid |
Lecture 38 - DC Microgrid Stabilization Strategies (Impedance/Admittance stability criteria) |
| Link |
NOC:DC Microgrid |
Lecture 39 - DC microgrid stabilization using nonlinear Techniques |
| Link |
NOC:DC Microgrid |
Lecture 40 - General Summary of DC Microgrids |
| Link |
NOC:Power Quality Improvement Technique |
Lecture 1 - Introduction |
| Link |
NOC:Power Quality Improvement Technique |
Lecture 2 - Overview - I |
| Link |
NOC:Power Quality Improvement Technique |
Lecture 3 - Overview - II |
| Link |
NOC:Power Quality Improvement Technique |
Lecture 4 - Overview - III |
| Link |
NOC:Power Quality Improvement Technique |
Lecture 5 - Source of Poor Power Quality - I |
| Link |
NOC:Power Quality Improvement Technique |
Lecture 6 - Source of Poor Power Quality - II |
| Link |
NOC:Power Quality Improvement Technique |
Lecture 7 - AC Power Quality Standard |
| Link |
NOC:Power Quality Improvement Technique |
Lecture 8 - Improvement of Power Factor by Capacitor |
| Link |
NOC:Power Quality Improvement Technique |
Lecture 9 - Passive Filter - I |
| Link |
NOC:Power Quality Improvement Technique |
Lecture 10 - Passive Filter - II |
| Link |
NOC:Power Quality Improvement Technique |
Lecture 11 - Passive Filter Design - I |
| Link |
NOC:Power Quality Improvement Technique |
Lecture 12 - Passive Filter Design - II |
| Link |
NOC:Power Quality Improvement Technique |
Lecture 13 - PWM Rectifier - I |
| Link |
NOC:Power Quality Improvement Technique |
Lecture 14 - PWM Rectifier - II |
| Link |
NOC:Power Quality Improvement Technique |
Lecture 15 - PWM Rectifier - III |
| Link |
NOC:Power Quality Improvement Technique |
Lecture 16 - Three phase converters - I |
| Link |
NOC:Power Quality Improvement Technique |
Lecture 17 - Three Phase Converters - II and multi pulse Converters |
| Link |
NOC:Power Quality Improvement Technique |
Lecture 18 - Three Phase Converters - III and multi-pulse Converters |
| Link |
NOC:Power Quality Improvement Technique |
Lecture 19 - VSI and CSI |
| Link |
NOC:Power Quality Improvement Technique |
Lecture 20 - Multilevel Inverter - I |
| Link |
NOC:Power Quality Improvement Technique |
Lecture 21 - Multilevel Inverter - II |
| Link |
NOC:Power Quality Improvement Technique |
Lecture 22 - Multilevel Inverter - III |
| Link |
NOC:Power Quality Improvement Technique |
Lecture 23 - PWM for Voltage Source Inverter - I |
| Link |
NOC:Power Quality Improvement Technique |
Lecture 24 - PWM for Voltage Source Inverter - II |
| Link |
NOC:Power Quality Improvement Technique |
Lecture 25 - PWM for Voltage Source inverter - III |
| Link |
NOC:Power Quality Improvement Technique |
Lecture 26 - PWM for Voltage Source Inverter - IV |
| Link |
NOC:Power Quality Improvement Technique |
Lecture 27 - Operation and Control of Grid-Connected VSC |
| Link |
NOC:Power Quality Improvement Technique |
Lecture 28 - Grid Connected VSC with inner Current Control |
| Link |
NOC:Power Quality Improvement Technique |
Lecture 29 - Shunt Active Power Filter - I |
| Link |
NOC:Power Quality Improvement Technique |
Lecture 30 - Shunt Active Power Filter - II |
| Link |
NOC:Power Quality Improvement Technique |
Lecture 31 - Shunt Active Power Filter - III |
| Link |
NOC:Power Quality Improvement Technique |
Lecture 32 - Shunt Active Power Filter - IV |
| Link |
NOC:Power Quality Improvement Technique |
Lecture 33 - Hybrid Active Power Filter - I |
| Link |
NOC:Power Quality Improvement Technique |
Lecture 34 - Hybrid Active power Filter - II |
| Link |
NOC:Power Quality Improvement Technique |
Lecture 35 - Hybrid Shunt Active Power Filter |
| Link |
NOC:Power Quality Improvement Technique |
Lecture 36 - UPQC Introduction and classification |
| Link |
NOC:Power Quality Improvement Technique |
Lecture 37 - UPQC Classification |
| Link |
NOC:Power Quality Improvement Technique |
Lecture 38 - Operation and Control of UPQC |
| Link |
NOC:Power Quality Improvement Technique |
Lecture 39 - Control of UPQC |
| Link |
NOC:Power Quality Improvement Technique |
Lecture 40 - Conclusion |
| Link |
NOC:Power System Protection and Switchgear |
Lecture 1 - Fundamentals of Protective Relaying - I |
| Link |
NOC:Power System Protection and Switchgear |
Lecture 2 - Fundamentals of Protective Relaying - II |
| Link |
NOC:Power System Protection and Switchgear |
Lecture 3 - Fundamentals of Protective Relaying - III |
| Link |
NOC:Power System Protection and Switchgear |
Lecture 4 - Fundamentals of Protective Relaying - IV |
| Link |
NOC:Power System Protection and Switchgear |
Lecture 5 - Fundamentals of Protective Relaying - V |
| Link |
NOC:Power System Protection and Switchgear |
Lecture 6 - Current based Relaying Scheme - I |
| Link |
NOC:Power System Protection and Switchgear |
Lecture 7 - Current based Relaying Scheme - II |
| Link |
NOC:Power System Protection and Switchgear |
Lecture 8 - Current based Relaying Scheme - III |
| Link |
NOC:Power System Protection and Switchgear |
Lecture 9 - Current based Relaying Scheme - IV |
| Link |
NOC:Power System Protection and Switchgear |
Lecture 10 - Current based Relaying Scheme - V |
| Link |
NOC:Power System Protection and Switchgear |
Lecture 11 - Current based Relaying Scheme - VI |
| Link |
NOC:Power System Protection and Switchgear |
Lecture 12 - Current based Relaying Scheme - VII |
| Link |
NOC:Power System Protection and Switchgear |
Lecture 13 - Current based Relaying Scheme - VIII |
| Link |
NOC:Power System Protection and Switchgear |
Lecture 14 - Protection of Transmission Lines using Distance Relays - I |
| Link |
NOC:Power System Protection and Switchgear |
Lecture 15 - Protection of Transmission Lines using Distance Relays - II |
| Link |
NOC:Power System Protection and Switchgear |
Lecture 16 - Protection of Transmission Lines using Distance Relays - III |
| Link |
NOC:Power System Protection and Switchgear |
Lecture 17 - Protection of Transmission Lines using Distance Relays - IV |
| Link |
NOC:Power System Protection and Switchgear |
Lecture 18 - Protection of Transmission Lines using Distance Relays - V |
| Link |
NOC:Power System Protection and Switchgear |
Lecture 19 - Carrier Aided Schemes for Transmission Lines - I |
| Link |
NOC:Power System Protection and Switchgear |
Lecture 20 - Carrier Aided Schemes for Transmission Lines - II |
| Link |
NOC:Power System Protection and Switchgear |
Lecture 21 - Carrier Aided Schemes for Transmission Lines - III |
| Link |
NOC:Power System Protection and Switchgear |
Lecture 22 - Carrier Aided Schemes for Transmission Lines - IV |
| Link |
NOC:Power System Protection and Switchgear |
Lecture 23 - Auto-reclosing and Synchronizing - I |
| Link |
NOC:Power System Protection and Switchgear |
Lecture 24 - Auto-reclosing and Synchronizing - II |
| Link |
NOC:Power System Protection and Switchgear |
Lecture 25 - Auto-reclosing and Synchronizing - III |
| Link |
NOC:Power System Protection and Switchgear |
Lecture 26 - Protection of Transformers - I |
| Link |
NOC:Power System Protection and Switchgear |
Lecture 27 - Protection of Transformers - II |
| Link |
NOC:Power System Protection and Switchgear |
Lecture 28 - Protection of Generators - I |
| Link |
NOC:Power System Protection and Switchgear |
Lecture 29 - Protection of Generators - II |
| Link |
NOC:Power System Protection and Switchgear |
Lecture 30 - Protection of Induction Motors |
| Link |
NOC:Power System Protection and Switchgear |
Lecture 31 - Protection of Busbars |
| Link |
NOC:Power System Protection and Switchgear |
Lecture 32 - Protection against Transients and Surges along with System Response to Severe Upsets - I |
| Link |
NOC:Power System Protection and Switchgear |
Lecture 33 - Protection against Transients and Surges along with System Response to Severe Upsets - II |
| Link |
NOC:Power System Protection and Switchgear |
Lecture 34 - Arc Interruption Theory in Circuit Breaker - I |
| Link |
NOC:Power System Protection and Switchgear |
Lecture 35 - Arc Interruption Theory in Circuit Breaker - II |
| Link |
NOC:Power System Protection and Switchgear |
Lecture 36 - Arc Interruption Theory in Circuit Breaker - III |
| Link |
NOC:Power System Protection and Switchgear |
Lecture 37 - Arc Interruption Theory in Circuit Breaker - IV |
| Link |
NOC:Power System Protection and Switchgear |
Lecture 38 - Types of Circuit Breakers |
| Link |
NOC:Power System Protection and Switchgear |
Lecture 39 - Testing, Commissioning and Maintenance of Relays - I |
| Link |
NOC:Power System Protection and Switchgear |
Lecture 40 - Testing, Commissioning and Maintenance of Relays - II |
| Link |
An Introduction to Electronics Systems Packaging |
Lecture 1 - Introduction and Objectives of the course |
| Link |
An Introduction to Electronics Systems Packaging |
Lecture 2 - Definition of a system and history of semiconductors |
| Link |
An Introduction to Electronics Systems Packaging |
Lecture 3 - Products and levels of packaging |
| Link |
An Introduction to Electronics Systems Packaging |
Lecture 4 - Packaging aspects of handheld products; Case studies in applications |
| Link |
An Introduction to Electronics Systems Packaging |
Lecture 5 - Case Study (continued); Definition of PWB, summary and Questions for review |
| Link |
An Introduction to Electronics Systems Packaging |
Lecture 6 - Basics of Semiconductor and Process flowchart; Video on “Sand-to-Silicon” |
| Link |
An Introduction to Electronics Systems Packaging |
Lecture 7 - Wafer fabrication, inspection and testing |
| Link |
An Introduction to Electronics Systems Packaging |
Lecture 8 - Wafer packaging; Packaging evolution; Chip connection choices |
| Link |
An Introduction to Electronics Systems Packaging |
Lecture 9 - Wire bonding, TAB and flipchip-1 |
| Link |
An Introduction to Electronics Systems Packaging |
Lecture 10 - Wire bonding, TAB and flipchip-2; Tutorials |
| Link |
An Introduction to Electronics Systems Packaging |
Lecture 11 - Why packaging? & Single chip packages or modules (SCM) |
| Link |
An Introduction to Electronics Systems Packaging |
Lecture 12 - Commonly used packages and advanced packages; Materials in packages |
| Link |
An Introduction to Electronics Systems Packaging |
Lecture 13 - Advances packages (continued); Thermal mismatch in packages; Current trends in packaging |
| Link |
An Introduction to Electronics Systems Packaging |
Lecture 14 - Multichip modules (MCM)-types; System-in-package (SIP); Packaging roadmaps; Hybrid circuits; Quiz on packages |
| Link |
An Introduction to Electronics Systems Packaging |
Lecture 15 - Electrical Issues – I; Resistive Parasitic |
| Link |
An Introduction to Electronics Systems Packaging |
Lecture 16 - Electrical Issues – II; Capacitive and Inductive Parasitic |
| Link |
An Introduction to Electronics Systems Packaging |
Lecture 17 - Electrical Issues – III; Layout guidelines and the Reflection problem |
| Link |
An Introduction to Electronics Systems Packaging |
Lecture 18 - Electrical Issues – IV; Interconnection |
| Link |
An Introduction to Electronics Systems Packaging |
Lecture 19 - Quick Tutorial on packages; Benefits from CAD; Introduction to DFM, DFR & DFT |
| Link |
An Introduction to Electronics Systems Packaging |
Lecture 20 - Components of a CAD package and its highlights |
| Link |
An Introduction to Electronics Systems Packaging |
Lecture 21 - Design Flow considerations; Beginning a circuit design with schematic work and component layout |
| Link |
An Introduction to Electronics Systems Packaging |
Lecture 22 - Demo and examples of layout and routing; Technology file generation from CAD; DFM check list and design rules; Design for Reliability |
| Link |
An Introduction to Electronics Systems Packaging |
Lecture 23 - Review of CAD output files for PCB fabrication; Photo plotting and mask generation |
| Link |
An Introduction to Electronics Systems Packaging |
Lecture 24 - Process flow-chart; Vias; PWB substrates |
| Link |
An Introduction to Electronics Systems Packaging |
Lecture 25 - Substrates continued; Video highlights; Surface preparation |
| Link |
An Introduction to Electronics Systems Packaging |
Lecture 26 - Photoresist and application methods; UV exposure and developing; Printing technologies for PWBs |
| Link |
An Introduction to Electronics Systems Packaging |
Lecture 27 - PWB etching; Resist stripping; Screen-printing technology |
| Link |
An Introduction to Electronics Systems Packaging |
Lecture 28 - Through-hole manufacture process steps; Panel and pattern plating methods |
| Link |
An Introduction to Electronics Systems Packaging |
Lecture 29 - Video highlights on manufacturing; Solder mask for PWBs; Multilayer PWBs; Introduction to microvias |
| Link |
An Introduction to Electronics Systems Packaging |
Lecture 30 - Microvia technology and Sequential build-up technology process flow for high-density interconnects |
| Link |
An Introduction to Electronics Systems Packaging |
Lecture 31 - Conventional Vs HDI technologies; Flexible circuits; Tutorial session |
| Link |
An Introduction to Electronics Systems Packaging |
Lecture 32 - SMD benefits; Design issues; Introduction to soldering |
| Link |
An Introduction to Electronics Systems Packaging |
Lecture 33 - Reflow and Wave Soldering methods to attach SMDs |
| Link |
An Introduction to Electronics Systems Packaging |
Lecture 34 - Solders; Wetting of solders; Flux and its properties; Defects in wave soldering |
| Link |
An Introduction to Electronics Systems Packaging |
Lecture 35 - Vapour phase soldering, BGA soldering and Desoldering/Repair; SMT failures |
| Link |
An Introduction to Electronics Systems Packaging |
Lecture 36 - SMT failure library and Tin Whiskers |
| Link |
An Introduction to Electronics Systems Packaging |
Lecture 37 - Tin-lead and lead-free solders; Phase diagrams; Thermal profiles for reflow soldering; Lead-free alloys |
| Link |
An Introduction to Electronics Systems Packaging |
Lecture 38 - Lead-free solder considerations; Green electronics; RoHS compliance and e-waste recycling issues |
| Link |
An Introduction to Electronics Systems Packaging |
Lecture 39 - Thermal Design considerations in systems packaging |
| Link |
An Introduction to Electronics Systems Packaging |
Lecture 40 - Introduction to embedded passives; Need for embedded passives; Design Library; Embedded resistor processes |
| Link |
An Introduction to Electronics Systems Packaging |
Lecture 41 - Embedded capacitors; Processes for embedding capacitors; Case study examples; Summary of materials in packaging |
| Link |
An Introduction to Electronics Systems Packaging |
Lecture 42 - Chapter-wise summary |
| Link |
Power Electronics and Distributed Generation |
Lecture 1 - Course introduction and overview |
| Link |
Power Electronics and Distributed Generation |
Lecture 2 - Distributed generation technologies |
| Link |
Power Electronics and Distributed Generation |
Lecture 3 - Distributed storage technologies |
| Link |
Power Electronics and Distributed Generation |
Lecture 4 - Distribution system protection |
| Link |
Power Electronics and Distributed Generation |
Lecture 5 - Circuit breaker coordination |
| Link |
Power Electronics and Distributed Generation |
Lecture 6 - Symmetrical component analysis and sequence excitation |
| Link |
Power Electronics and Distributed Generation |
Lecture 7 - Modeling of distribution system components |
| Link |
Power Electronics and Distributed Generation |
Lecture 8 - Protection components |
| Link |
Power Electronics and Distributed Generation |
Lecture 9 - Impact of distributed generation of distribution protection |
| Link |
Power Electronics and Distributed Generation |
Lecture 10 - Consumption and distribution grounding |
| Link |
Power Electronics and Distributed Generation |
Lecture 11 - Islanding of distribution systems |
| Link |
Power Electronics and Distributed Generation |
Lecture 12 - Modeling of islanded distribution systems |
| Link |
Power Electronics and Distributed Generation |
Lecture 13 - Distribution system problems and examples |
| Link |
Power Electronics and Distributed Generation |
Lecture 14 - Distribution system problems and examples continued |
| Link |
Power Electronics and Distributed Generation |
Lecture 15 - Anti-islanding methods |
| Link |
Power Electronics and Distributed Generation |
Lecture 16 - Solid state circuit switching |
| Link |
Power Electronics and Distributed Generation |
Lecture 17 - Relaying for distributed generation |
| Link |
Power Electronics and Distributed Generation |
Lecture 18 - Feeder voltage regulation |
| Link |
Power Electronics and Distributed Generation |
Lecture 19 - Grounding, distribution protection coordination problems and examples |
| Link |
Power Electronics and Distributed Generation |
Lecture 20 - Ring and network distribution |
| Link |
Power Electronics and Distributed Generation |
Lecture 21 - Economic evaluation of DG systems |
| Link |
Power Electronics and Distributed Generation |
Lecture 22 - Design for effective initial cost |
| Link |
Power Electronics and Distributed Generation |
Lecture 23 - Single phase inverters |
| Link |
Power Electronics and Distributed Generation |
Lecture 24 - DC bus design in voltage source inverter |
| Link |
Power Electronics and Distributed Generation |
Lecture 25 - Electrolytic capacitor reliability and lifetime |
| Link |
Power Electronics and Distributed Generation |
Lecture 26 - Inverter switching and average model |
| Link |
Power Electronics and Distributed Generation |
Lecture 27 - Common mode and differential mode model of inverters |
| Link |
Power Electronics and Distributed Generation |
Lecture 28 - Two leg single phase inverter |
| Link |
Power Electronics and Distributed Generation |
Lecture 29 - Distribution system problems, and examples |
| Link |
Power Electronics and Distributed Generation |
Lecture 30 - DG evaluation problems and examples |
| Link |
Power Electronics and Distributed Generation |
Lecture 31 - Switch selection in two level voltage source inverters and loss evaluation |
| Link |
Power Electronics and Distributed Generation |
Lecture 32 - Thermal model, management and cycling failure of IGBT modules |
| Link |
Power Electronics and Distributed Generation |
Lecture 33 - Semiconductor switch design reliability considerations |
| Link |
Power Electronics and Distributed Generation |
Lecture 34 - AC filters for grid connected inverters |
| Link |
Power Electronics and Distributed Generation |
Lecture 35 - AC inductor design and need for LCL filter |
| Link |
Power Electronics and Distributed Generation |
Lecture 36 - LCL filter design |
| Link |
Power Electronics and Distributed Generation |
Lecture 37 - Examples in power electronic design for DG systems |
| Link |
Power Electronics and Distributed Generation |
Lecture 38 - Examples in power electronic design for DG systems continued |
| Link |
Power Electronics and Distributed Generation |
Lecture 39 - Higher order passive damping design for LCL filters |
| Link |
Power Electronics and Distributed Generation |
Lecture 40 - Balance of hardware component for inverters in DG systems |
| Link |
Pulse width Modulation for Power Electronic Converters |
Lecture 1 - Electronic switches |
| Link |
Pulse width Modulation for Power Electronic Converters |
Lecture 2 - DC - DC converters |
| Link |
Pulse width Modulation for Power Electronic Converters |
Lecture 3 - DC - AC converters |
| Link |
Pulse width Modulation for Power Electronic Converters |
Lecture 4 - Multilevel converters - I |
| Link |
Pulse width Modulation for Power Electronic Converters |
Lecture 5 - Multilevel converters - II |
| Link |
Pulse width Modulation for Power Electronic Converters |
Lecture 6 - Applications of voltage source converter - I |
| Link |
Pulse width Modulation for Power Electronic Converters |
Lecture 7 - Applications of voltage source converter - II |
| Link |
Pulse width Modulation for Power Electronic Converters |
Lecture 8 - Applications of voltage source converter - III |
| Link |
Pulse width Modulation for Power Electronic Converters |
Lecture 9 - Purpose of PWM - I |
| Link |
Pulse width Modulation for Power Electronic Converters |
Lecture 10 - Purpose of PWM - II |
| Link |
Pulse width Modulation for Power Electronic Converters |
Lecture 11 - Low switching frequency PWM - I |
| Link |
Pulse width Modulation for Power Electronic Converters |
Lecture 12 - Low switching frequency PWM - II |
| Link |
Pulse width Modulation for Power Electronic Converters |
Lecture 13 - Selective harmonic elimination |
| Link |
Pulse width Modulation for Power Electronic Converters |
Lecture 14 - Off-line optimized pulsewidth modulation |
| Link |
Pulse width Modulation for Power Electronic Converters |
Lecture 15 - Sine-triangle pulsewidth modulation |
| Link |
Pulse width Modulation for Power Electronic Converters |
Lecture 16 - Harmonic injection pulsewidth modulation |
| Link |
Pulse width Modulation for Power Electronic Converters |
Lecture 17 - Bus-clamping pulsewidth modulation |
| Link |
Pulse width Modulation for Power Electronic Converters |
Lecture 18 - Triangle-comparison based PWM for three-phase inverter |
| Link |
Pulse width Modulation for Power Electronic Converters |
Lecture 19 - Concept of space vector |
| Link |
Pulse width Modulation for Power Electronic Converters |
Lecture 20 - Conventional space vector PWM |
| Link |
Pulse width Modulation for Power Electronic Converters |
Lecture 21 - Space vector based bus-clamping PWM |
| Link |
Pulse width Modulation for Power Electronic Converters |
Lecture 22 - Space vector based advanced bus-clamping PWM |
| Link |
Pulse width Modulation for Power Electronic Converters |
Lecture 23 - Harmonic analysis of PWM techniques |
| Link |
Pulse width Modulation for Power Electronic Converters |
Lecture 24 - Analysis of RMS line current ripple using the notion of stator flux ripple |
| Link |
Pulse width Modulation for Power Electronic Converters |
Lecture 25 - Evaluation of RMS line current ripple using the notion of stator flux ripple |
| Link |
Pulse width Modulation for Power Electronic Converters |
Lecture 26 - Analysis and design of PWM techniques from line current ripple perspective |
| Link |
Pulse width Modulation for Power Electronic Converters |
Lecture 27 - Instantaneous and average dc link current in a voltage source inverter |
| Link |
Pulse width Modulation for Power Electronic Converters |
Lecture 28 - DC link current and DC capacitor current in a voltage source inverter |
| Link |
Pulse width Modulation for Power Electronic Converters |
Lecture 29 - Analysis of torque ripple in induction motor drives - I |
| Link |
Pulse width Modulation for Power Electronic Converters |
Lecture 30 - Analysis of torque ripple in induction motor drives - II |
| Link |
Pulse width Modulation for Power Electronic Converters |
Lecture 31 - Evaluation of conduction loss in three-phase inverter |
| Link |
Pulse width Modulation for Power Electronic Converters |
Lecture 32 - Evaluation of switching loss in three-phase inverter |
| Link |
Pulse width Modulation for Power Electronic Converters |
Lecture 33 - Design of PWM for reduced switching loss in three-phase inverter |
| Link |
Pulse width Modulation for Power Electronic Converters |
Lecture 34 - Effect of dead-time on inverter output voltage for continuous PWM schemes |
| Link |
Pulse width Modulation for Power Electronic Converters |
Lecture 35 - Effect of dead-time on inverter output voltage for bus-clamping PWM schemes |
| Link |
Pulse width Modulation for Power Electronic Converters |
Lecture 36 - Analysis of overmodulation in sine-triangle PWM from space vector perspective |
| Link |
Pulse width Modulation for Power Electronic Converters |
Lecture 37 - Overmodulation in space vector modulated inverter |
| Link |
Pulse width Modulation for Power Electronic Converters |
Lecture 38 - PWM for three-level neutral-point-clamped inverter - I |
| Link |
Pulse width Modulation for Power Electronic Converters |
Lecture 39 - PWM for three-level neutral-point-clamped inverter - II |
| Link |
Pulse width Modulation for Power Electronic Converters |
Lecture 40 - PWM for three-level neutral-point-clamped inverter - III |
| Link |
Switched Mode Power Conversion |
Lecture 1 - Introduction to DC-DC converter |
| Link |
Switched Mode Power Conversion |
Lecture 2 - Diode |
| Link |
Switched Mode Power Conversion |
Lecture 3 - Controlled Switches |
| Link |
Switched Mode Power Conversion |
Lecture 4 - Prior Art |
| Link |
Switched Mode Power Conversion |
Lecture 5 - Inductor |
| Link |
Switched Mode Power Conversion |
Lecture 6 - Transformer |
| Link |
Switched Mode Power Conversion |
Lecture 7 - Capacitor |
| Link |
Switched Mode Power Conversion |
Lecture 8 - Issues related to switches |
| Link |
Switched Mode Power Conversion |
Lecture 9 - Energy storage - Capacitor |
| Link |
Switched Mode Power Conversion |
Lecture 10 - Energy storage - Inductor |
| Link |
Switched Mode Power Conversion |
Lecture 11 - Primitive Converter |
| Link |
Switched Mode Power Conversion |
Lecture 12 - Non-Isolated converter - I |
| Link |
Switched Mode Power Conversion |
Lecture 13 - Non-Isolated converter - II |
| Link |
Switched Mode Power Conversion |
Lecture 14 - Isolated Converters - I |
| Link |
Switched Mode Power Conversion |
Lecture 15 - Isolated Converters - II |
| Link |
Switched Mode Power Conversion |
Lecture 16 - Conduction Mode |
| Link |
Switched Mode Power Conversion |
Lecture 17 - Problem set - I |
| Link |
Switched Mode Power Conversion |
Lecture 18 - Problem set - II |
| Link |
Switched Mode Power Conversion |
Lecture 19 - Modeling DC-DC converters |
| Link |
Switched Mode Power Conversion |
Lecture 20 - State space representation - I |
| Link |
Switched Mode Power Conversion |
Lecture 21 - State Space representation - II |
| Link |
Switched Mode Power Conversion |
Lecture 22 - Circuit Averaging - I |
| Link |
Switched Mode Power Conversion |
Lecture 23 - Circuit Averaging - II |
| Link |
Switched Mode Power Conversion |
Lecture 24 - State Space Model of Boost Converter |
| Link |
Switched Mode Power Conversion |
Lecture 25 - DC-DC converter controller |
| Link |
Switched Mode Power Conversion |
Lecture 26 - Controller Structure |
| Link |
Switched Mode Power Conversion |
Lecture 27 - PID Controller - I |
| Link |
Switched Mode Power Conversion |
Lecture 28 - PID Controller - II |
| Link |
Switched Mode Power Conversion |
Lecture 29 - PID Controller - III |
| Link |
Switched Mode Power Conversion |
Lecture 30 - Implementation of PID controller |
| Link |
Switched Mode Power Conversion |
Lecture 31 - Pulse Width Modulator |
| Link |
Switched Mode Power Conversion |
Lecture 32 - Controller Design - I |
| Link |
Switched Mode Power Conversion |
Lecture 33 - Controller Design - II |
| Link |
Switched Mode Power Conversion |
Lecture 34 - Controllers and Sensing Circuit |
| Link |
Switched Mode Power Conversion |
Lecture 35 - Regulation of Multiple outputs - I |
| Link |
Switched Mode Power Conversion |
Lecture 36 - Regulation of Multiple outputs - II |
| Link |
Switched Mode Power Conversion |
Lecture 37 - Current Control |
| Link |
Switched Mode Power Conversion |
Lecture 38 - Unity Power Factor Converter |
| Link |
Switched Mode Power Conversion |
Lecture 39 - Magnetic Design |
| Link |
Switched Mode Power Conversion |
Lecture 40 - DC-DC Converter Design |
| Link |
Basic Electrical Technology |
Lecture 1 - Basic Electrical Technology |
| Link |
Basic Electrical Technology |
Lecture 2 - Passive Components |
| Link |
Basic Electrical Technology |
Lecture 3 - Sources |
| Link |
Basic Electrical Technology |
Lecture 4 - Kirchoff's Law |
| Link |
Basic Electrical Technology |
Lecture 5 - Modelling of Circuit - Part 1 |
| Link |
Basic Electrical Technology |
Lecture 6 - Modelling of Circuit - Part 2 |
| Link |
Basic Electrical Technology |
Lecture 7 - Analysis Using MatLab |
| Link |
Basic Electrical Technology |
Lecture 8 - Sinusoidal steady state |
| Link |
Basic Electrical Technology |
Lecture 9 - Transfer Function and Pole Zero domain |
| Link |
Basic Electrical Technology |
Lecture 10 - Transfer function & pole zero |
| Link |
Basic Electrical Technology |
Lecture 11 - The Sinusoid |
| Link |
Basic Electrical Technology |
Lecture 12 - Phasor Analysis - Part 1 |
| Link |
Basic Electrical Technology |
Lecture 13 - Phasor Analysis - Part 2 |
| Link |
Basic Electrical Technology |
Lecture 14 - Power Factor |
| Link |
Basic Electrical Technology |
Lecture 15 - Power ports |
| Link |
Basic Electrical Technology |
Lecture 16 - Transformer Basics - Part 1 |
| Link |
Basic Electrical Technology |
Lecture 17 - Transformer Basics - Part 2 |
| Link |
Basic Electrical Technology |
Lecture 18 - Transformer Basics - Part 3 |
| Link |
Basic Electrical Technology |
Lecture 19 - The Practical Transformer - Part 1 |
| Link |
Basic Electrical Technology |
Lecture 20 - The Practical Transformer - Part 2 |
| Link |
Basic Electrical Technology |
Lecture 21 - The Practical Transformer - Part 3 |
| Link |
Basic Electrical Technology |
Lecture 22 - DC Machines - Part 1 |
| Link |
Basic Electrical Technology |
Lecture 23 - DC Machines - Part 2 |
| Link |
Basic Electrical Technology |
Lecture 24 - DC Generators - Part 1 |
| Link |
Basic Electrical Technology |
Lecture 25 - DC Generators - Part 2 |
| Link |
Basic Electrical Technology |
Lecture 26 - DC Motors - Part 1 |
| Link |
Basic Electrical Technology |
Lecture 27 - DC Motors - Part 2 |
| Link |
Basic Electrical Technology |
Lecture 28 - DC Motors - Part 3 |
| Link |
Basic Electrical Technology |
Lecture 29 - Three Phase System - Part 1 |
| Link |
Basic Electrical Technology |
Lecture 30 - Three Phase System - Part 2 |
| Link |
Basic Electrical Technology |
Lecture 31 - Three Phase System - Part 3 |
| Link |
Basic Electrical Technology |
Lecture 32 - Three Phase System - Part 4 |
| Link |
Basic Electrical Technology |
Lecture 33 - Three Phase Transformer - Part 1 |
| Link |
Basic Electrical Technology |
Lecture 34 - Three Phase Transformer - Part 2 |
| Link |
Basic Electrical Technology |
Lecture 35 - Induction Motor - Part 1 |
| Link |
Basic Electrical Technology |
Lecture 36 - Induction Motor - Part 2 |
| Link |
Basic Electrical Technology |
Lecture 37 - Induction Motor - Part 3 |
| Link |
Basic Electrical Technology |
Lecture 38 - Induction Motor - Part 4 |
| Link |
Basic Electrical Technology |
Lecture 39 - Synchronous Machine |
| Link |
Industrial Drives - Power Electronics |
Lecture 1 - Electric Drive |
| Link |
Industrial Drives - Power Electronics |
Lecture 2 - Controlled Rectifier - Part-1 |
| Link |
Industrial Drives - Power Electronics |
Lecture 3 - Controlled Rectifier - Part-2 (Three phase) |
| Link |
Industrial Drives - Power Electronics |
Lecture 4 - Controlled Rectifier - Part-3 (Three phase) |
| Link |
Industrial Drives - Power Electronics |
Lecture 5 - Controlled Rectifier - Part-4 (Three Phase) |
| Link |
Industrial Drives - Power Electronics |
Lecture 6 - Controlled Rectifier - Part-5 (Three Phase) |
| Link |
Industrial Drives - Power Electronics |
Lecture 7 - Power Electronics Improvements |
| Link |
Industrial Drives - Power Electronics |
Lecture 8 - Four Quadrant Dc to Dc Converter |
| Link |
Industrial Drives - Power Electronics |
Lecture 9 - Sine Triangle PWM Control of Converter |
| Link |
Industrial Drives - Power Electronics |
Lecture 10 - Front-end Ac-Dc Converter with harmonic control |
| Link |
Industrial Drives - Power Electronics |
Lecture 11 - Ac to Dc Converter Close Loop Control Schematic |
| Link |
Industrial Drives - Power Electronics |
Lecture 12 - Ac-Dc Converter Close loop Control Block Diagram |
| Link |
Industrial Drives - Power Electronics |
Lecture 13 - Design of the Converter Controller & AC to DC |
| Link |
Industrial Drives - Power Electronics |
Lecture 14 - Front-End Ac to Dc Converter-Design |
| Link |
Industrial Drives - Power Electronics |
Lecture 15 - Front-End Ac to Dc Converter - Simulation study |
| Link |
Industrial Drives - Power Electronics |
Lecture 16 - Dc Motor Speed Control - Introduction |
| Link |
Industrial Drives - Power Electronics |
Lecture 17 - Dc Motor Speed Control - Block Diagram |
| Link |
Industrial Drives - Power Electronics |
Lecture 18 - Dc Motor Speed Control Current Control & S C L |
| Link |
Industrial Drives - Power Electronics |
Lecture 19 - Dc-Motor Speed Control Controller Design - Part-1 |
| Link |
Industrial Drives - Power Electronics |
Lecture 20 - Dc Motor Speed Control Controller Design - Part-2 |
| Link |
Industrial Drives - Power Electronics |
Lecture 21 - Dc Motor Speed Control Controller Design - Part-3 |
| Link |
Industrial Drives - Power Electronics |
Lecture 22 - Basics of DC to AC Converter - Part-1 |
| Link |
Industrial Drives - Power Electronics |
Lecture 23 - Basics of DC to AC Converter - Part-2 |
| Link |
Industrial Drives - Power Electronics |
Lecture 24 - Inverter Sine Triangle PWM |
| Link |
Industrial Drives - Power Electronics |
Lecture 25 - Inverter - Current Hysteresis Controlled PWM |
| Link |
Industrial Drives - Power Electronics |
Lecture 26 - C H controlled & Basics of space vector PWM |
| Link |
Industrial Drives - Power Electronics |
Lecture 27 - Space Vector PWM - Part-2 |
| Link |
Industrial Drives - Power Electronics |
Lecture 28 - Space Vector PWM - Part-3 |
| Link |
Industrial Drives - Power Electronics |
Lecture 29 - Space Vector PWM Signal Generation |
| Link |
Industrial Drives - Power Electronics |
Lecture 30 - Speed Control of Induction Motor - Part-1 |
| Link |
Industrial Drives - Power Electronics |
Lecture 31 - Speed Control of Induction Motor - Part-2 |
| Link |
Industrial Drives - Power Electronics |
Lecture 32 - High dynamic performance of I M Drive |
| Link |
Industrial Drives - Power Electronics |
Lecture 33 - Dynamic Model of Induction Motor - Part-1 |
| Link |
Industrial Drives - Power Electronics |
Lecture 34 - Dynamic Model of Induction Motor - Part-2 |
| Link |
Industrial Drives - Power Electronics |
Lecture 35 - Vector Control of Induction Motor |
| Link |
Industrial Drives - Power Electronics |
Lecture 36 - Effect of Switching Time lag in Inverter |
| Link |
Industrial Drives - Power Electronics |
Lecture 37 - Power Switch Protection - Snubbers |
| Link |
NOC:Design for Internet of Things |
Lecture 1 - Introduction to IOTs - Part I |
| Link |
NOC:Design for Internet of Things |
Lecture 2 - Introduction to IOTs - Part II |
| Link |
NOC:Design for Internet of Things |
Lecture 3 - Introduction to IOTs - Examples |
| Link |
NOC:Design for Internet of Things |
Lecture 4 - IOT applications - I |
| Link |
NOC:Design for Internet of Things |
Lecture 5 - IOT applications - II |
| Link |
NOC:Design for Internet of Things |
Lecture 6 - Power management in IOT device |
| Link |
NOC:Design for Internet of Things |
Lecture 7 - Introduction to LDO |
| Link |
NOC:Design for Internet of Things |
Lecture 8 - Design with an LDO |
| Link |
NOC:Design for Internet of Things |
Lecture 9 - Introduction to switching regulators |
| Link |
NOC:Design for Internet of Things |
Lecture 10 - Designing with LDO's, switching regulators and case studies - Part I |
| Link |
NOC:Design for Internet of Things |
Lecture 11 - Designing with LDO's, switching regulators and case studies - Part II |
| Link |
NOC:Design for Internet of Things |
Lecture 12 - Designing with LDO's, switching regulators and case studies - Part II |
| Link |
NOC:Design for Internet of Things |
Lecture 13 - Designing with LDO's, switching regulators and case studies - Part IV |
| Link |
NOC:Design for Internet of Things |
Lecture 14 - Power Conditioning with Energy Harvesters - I |
| Link |
NOC:Design for Internet of Things |
Lecture 15 - Power Conditioning with Energy Harvesters - II |
| Link |
NOC:Design for Internet of Things |
Lecture 16 - Power Conditioning with Energy Harvesters - III |
| Link |
NOC:Design for Internet of Things |
Lecture 17 - Battery less power supply and battery life calculation for embedded devices - I |
| Link |
NOC:Design for Internet of Things |
Lecture 18 - Battery less power supply and battery life calculation for embedded devices - II |
| Link |
NOC:Design for Internet of Things |
Lecture 19 - Battery less power supply and battery life calculation for embedded devices - III |
| Link |
NOC:Design for Internet of Things |
Lecture 20 - Introduction to MQTT |
| Link |
NOC:Design for Internet of Things |
Lecture 21 - Quality of Service in MQTT |
| Link |
NOC:Design for Internet of Things |
Lecture 22 - Standards and Security in MQTT |
| Link |
NOC:Design for Internet of Things |
Lecture 23 - Introduction and Implementation of AMQP |
| Link |
NOC:Design for Internet of Things |
Lecture 24 - Implementation of CoAP and MDNS |
| Link |
NOC:Design for Internet of Things |
Lecture 25 - Basics of RFID |
| Link |
NOC:Design for Internet of Things |
Lecture 26 - RFID protocol and applications |
| Link |
NOC:Design for Internet of Things |
Lecture 27 - BLE Security |
| Link |
NOC:Design for Internet of Things |
Lecture 28 - LPWAN technologies |
| Link |
NOC:Design for Internet of Things |
Lecture 29 - Choice of Microcontrollers |
| Link |
NOC:Design for Internet of Things |
Lecture 30 - Case Study 1 - Joule Jotter |
| Link |
NOC:Design for Internet of Things |
Lecture 31 - Case Study 2 - Cloud Based Systems |
| Link |
NOC:Advances in UHV Transmission and Distribution |
Lecture 1 - Advantages of HVAC/DC Transmission, Introduction to Grid Management |
| Link |
NOC:Advances in UHV Transmission and Distribution |
Lecture 2 - Transmission system development, Important components of transmission system |
| Link |
NOC:Advances in UHV Transmission and Distribution |
Lecture 3 - Insulation coordination, over voltage in power systems |
| Link |
NOC:Advances in UHV Transmission and Distribution |
Lecture 4 - Design/selection of insulators, Importance of grading/cc rings |
| Link |
NOC:Advances in UHV Transmission and Distribution |
Lecture 5 - Non ceramic insulators performance-service experience |
| Link |
NOC:Advances in UHV Transmission and Distribution |
Lecture 6 - Failure of apparatus in the field, importance of reliability and testing |
| Link |
NOC:Advances in UHV Transmission and Distribution |
Lecture 7 - Pollution flashover phenomena, modeling etc |
| Link |
NOC:Advances in UHV Transmission and Distribution |
Lecture 8 - Planning of High Voltage laboratories |
| Link |
NOC:Advances in UHV Transmission and Distribution |
Lecture 9 - Importance of High Voltage testing and techniques employed |
| Link |
NOC:Advances in UHV Transmission and Distribution |
Lecture 10 - Basic philosophy of HV testing, tests for various HV apparatus |
| Link |
NOC:Advances in UHV Transmission and Distribution |
Lecture 11 - HV testing techniques for various apparatus |
| Link |
NOC:Advances in UHV Transmission and Distribution |
Lecture 12 - HV testing on Composite Insulators |
| Link |
NOC:Advances in UHV Transmission and Distribution |
Lecture 13 - Surface degradation studies on composite insulators |
| Link |
NOC:Advances in UHV Transmission and Distribution |
Lecture 14 - Surface morphological techniques for composite insulators |
| Link |
NOC:Advances in UHV Transmission and Distribution |
Lecture 15 - Conductors used for EHV/UHV transmission |
| Link |
NOC:Advances in UHV Transmission and Distribution |
Lecture 16 - Corona nad interference on transmission lines |
| Link |
NOC:Advances in UHV Transmission and Distribution |
Lecture 17 - Introduction of HTLS conductors and their advantages |
| Link |
NOC:Advances in UHV Transmission and Distribution |
Lecture 18 - Mechanical considerations for HV conductors |
| Link |
NOC:Advances in UHV Transmission and Distribution |
Lecture 19 - Introduction to Towers and importance of foundations |
| Link |
NOC:Advances in UHV Transmission and Distribution |
Lecture 20 - Selection/Design of clearances for HV towers |
| Link |
NOC:Advances in UHV Transmission and Distribution |
Lecture 21 - Design Optimization for UHV towers |
| Link |
NOC:Advances in UHV Transmission and Distribution |
Lecture 22 - Introduction to 1100kV HVDC |
| Link |
NOC:Advances in UHV Transmission and Distribution |
Lecture 23 - Introduction to HV Substations |
| Link |
NOC:Advances in UHV Transmission and Distribution |
Lecture 24 - Types of Substations, comparison |
| Link |
NOC:Advances in UHV Transmission and Distribution |
Lecture 25 - Insulation coordination, Components in a typical substation |
| Link |
NOC:Advances in UHV Transmission and Distribution |
Lecture 26 - Preventive maintenance of Substation |
| Link |
NOC:Advances in UHV Transmission and Distribution |
Lecture 27 - Electric and magnetic fields, mitigations techniques |
| Link |
NOC:Advances in UHV Transmission and Distribution |
Lecture 28 - Importance of Grounding, reducing Earthing resistance |
| Link |
NOC:Advances in UHV Transmission and Distribution |
Lecture 29 - Introduction to the use of Fiber optic cables, OPGW |
| Link |
NOC:Advances in UHV Transmission and Distribution |
Lecture 30 - Introduction to communication and SCADA |
| Link |
NOC:Advances in UHV Transmission and Distribution |
Lecture 31 - Precautions and safety measures in substation |
| Link |
NOC:Advances in UHV Transmission and Distribution |
Lecture 32 - Electrical hazards, minimum clearances in substation |
| Link |
NOC:Advances in UHV Transmission and Distribution |
Lecture 33 - Importance of Generation of HVDC in the laboratory |
| Link |
NOC:Advances in UHV Transmission and Distribution |
Lecture 34 - Importance of Generation of HVAC, Impulse Voltage and Currents in the laboratory |
| Link |
NOC:Advances in UHV Transmission and Distribution |
Lecture 35 - Measurements of High Voltages |
| Link |
NOC:Advances in UHV Transmission and Distribution |
Lecture 36 - Measurements of High Voltages (Continued...) |
| Link |
NOC:Advances in UHV Transmission and Distribution |
Lecture 37 - Introduction to digital recorders, measurement |
| Link |
NOC:Advances in UHV Transmission and Distribution |
Lecture 38 - Upgradation/uprating of transmission lines- advantages |
| Link |
NOC:Advances in UHV Transmission and Distribution |
Lecture 39 - Upgradation/uprating of transmission lines- advantages (Continued...) |
| Link |
NOC:Advances in UHV Transmission and Distribution |
Lecture 40 - Summary of the course |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 1 - Introduction to signal processing |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 2 - Basics of signals and systems |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 3 - Linear time-invariant systems |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 4 - Modes in a linear system |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 5 - Introduction to state space representation |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 6 - State space representation |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 7 - Non-uniqueness of state space representation |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 8 - Introduction to vector space |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 9 - Linear independence and spanning set |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 10 - Unique representation theorem |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 11 - Basis and cardinality of basis |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 12 - Norms and inner product spaces |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 13 - Inner products and induced norm |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 14 - Cauchy Schwartz inequality |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 15 - Orthonormality |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 16 - Problem on sum of subspaces |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 17 - Linear independence of orthogonal vectors |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 18 - Hilbert space and linear transformation |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 19 - Gram Schmidt orthonormalization |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 20 - Linear approximation of signal space |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 21 - Gram Schmidt orthogonalization of signals |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 22 - Problem on orthogonal complement |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 23 - Problem on signal geometry (4-QAM) |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 24 - Basics of probability and random variables |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 25 - Mean and variance of a random variable |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 26 - Introduction to random process |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 27 - Statistical specification of random processes |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 28 - Stationarity of random processes |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 29 - Problem on mean and variance |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 30 - Problem on MAP Detection |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 31 - Fourier transform of dirac comb sequence |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 32 - Sampling theorem |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 33 - Basics of multirate systems |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 34 - Frequency representation of expanders and decimators |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 35 - Decimation and interpolation filters |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 36 - Fractional sampling rate alterations |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 37 - Digital filter banks |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 38 - DFT as filter bank |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 39 - Noble Identities |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 40 - Polyphase representation |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 41 - Efficient architectures for interpolation and decimation filters |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 42 - Problems on simplifying multirate systems using noble identities |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 43 - Problem on designing synthesis bank filters |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 44 - Efficient architecture for fractional decimator |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 45 - Multistage filter design |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 46 - Two-channel filter banks |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 47 - Amplitude and phase distortion in signals |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 48 - Polyphase representation of 2-channel filter banks, signal flow graphs and perfect reconstruction |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 49 - M-channel filter banks |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 50 - Polyphase representation of M-channel filter bank |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 51 - Perfect reconstruction of signals |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 52 - Nyquist and half band filters |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 53 - Special filter banks for perfect reconstruction |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 54 - Introduction to wavelets |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 55 - Multiresolution analysis and properties |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 56 - The Haar wavelet |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 57 - Structure of subspaces in MRA |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 58 - Haar decomposition - 1 |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 59 - Haar decomposition - 2 |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 60 - Wavelet Reconstruction |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 61 - Haar wavelet and link to filter banks |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 62 - Demo on wavelet decomposition |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 63 - Problem on circular convolution |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 64 - Time frequency localization |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 65 - Basic analysis: Pointwise and uniform continuity of functions |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 66 - Basic Analysis : Convergence of sequence of functions |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 67 - Fourier series and notions of convergence |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 68 - Convergence of Fourier series at a point of continuity |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 69 - Convergence of Fourier series for piecewise differentiable periodic functions |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 70 - Uniform convergence of Fourier series of piecewise smooth periodic function |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 71 - Convergence in norm of Fourier series |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 72 - Convergence of Fourier series for all square integrable periodic functions |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 73 - Problem on limits of integration of periodic functions |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 74 - Matrix Calculus |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 75 - KL transform |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 76 - Applications of KL transform |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 77 - Demo on KL Transform |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 78 - Live Session |
| Link |
NOC:Mathematical Methods and Techniques in Signal Processing |
Lecture 79 - Live Session 2 |
| Link |
NOC:Electronics Enclosures Thermal Issues |
Lecture 1 - Electronic Equipment Thermal issues |
| Link |
NOC:Electronics Enclosures Thermal Issues |
Lecture 2 - Practical Examples - 1 |
| Link |
NOC:Electronics Enclosures Thermal Issues |
Lecture 3 - Practical Examples - 2 |
| Link |
NOC:Electronics Enclosures Thermal Issues |
Lecture 4 - CEDT worked examples - 1 |
| Link |
NOC:Electronics Enclosures Thermal Issues |
Lecture 5 - CEDT worked examples - 2 |
| Link |
NOC:Electronics Enclosures Thermal Issues |
Lecture 6 - Text book theory |
| Link |
NOC:Electronics Enclosures Thermal Issues |
Lecture 7 - Sample heat sinks |
| Link |
NOC:Electronics Enclosures Thermal Issues |
Lecture 8 - Published correlations - 1 |
| Link |
NOC:Electronics Enclosures Thermal Issues |
Lecture 9 - Published correlations - 2 |
| Link |
NOC:Electronics Enclosures Thermal Issues |
Lecture 10 - Parallel combined effects |
| Link |
NOC:Electronics Enclosures Thermal Issues |
Lecture 11 - Mounting of packages |
| Link |
NOC:Electronics Enclosures Thermal Issues |
Lecture 12 - Combined Rth of devices |
| Link |
NOC:Electronics Enclosures Thermal Issues |
Lecture 13 - Schonholzer moduls |
| Link |
NOC:Electronics Enclosures Thermal Issues |
Lecture 14 - 1972 model paper |
| Link |
NOC:Electronics Enclosures Thermal Issues |
Lecture 15 - Jensen model |
| Link |
NOC:Electronics Enclosures Thermal Issues |
Lecture 16 - Thermal management - 1 |
| Link |
NOC:Electronics Enclosures Thermal Issues |
Lecture 17 - Thermal management - 2 |
| Link |
NOC:Electronics Enclosures Thermal Issues |
Lecture 18 - Round up of full model |
| Link |
NOC:Electronics Enclosures Thermal Issues |
Lecture 19 - Fan cooling |
| Link |
NOC:Electronics Enclosures Thermal Issues |
Lecture 20 - Thermo-electric cooling |
| Link |
NOC:Electronics Enclosures Thermal Issues |
Lecture 21 - On-the-net DIY work |
| Link |
NOC:Electronics Enclosures Thermal Issues |
Lecture 22 - Practical video |
| Link |
NOC:Electronics Enclosures Thermal Issues |
Lecture 23 |
| Link |
NOC:Electronics Enclosures Thermal Issues |
Lecture 24 |
| Link |
NOC:Electronics Enclosures Thermal Issues |
Lecture 25 |
| Link |
NOC:Electronics Enclosures Thermal Issues |
Lecture 26 |
| Link |
NOC:Electronics Enclosures Thermal Issues |
Lecture 27 - Real packages |
| Link |
NOC:Electronics Enclosures Thermal Issues |
Lecture 28 - Prior art |
| Link |
NOC:Electronics Enclosures Thermal Issues |
Lecture 29 - OTS standard profiles |
| Link |
NOC:Electronics Enclosures Thermal Issues |
Lecture 30 - CAD detailed design of profiles |
| Link |
NOC:Electronics Enclosures Thermal Issues |
Lecture 31 - Round up |
| Link |
NOC:Electronics Enclosures Thermal Issues |
Lecture 32 - 4X Peltier Cooler |
| Link |
NOC:Electronics Enclosures Thermal Issues |
Lecture 33 - Manufacturing Video |
| Link |
NOC:Electronics Enclosures Thermal Issues |
Lecture 34 - Peltier heat sink |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 1 - Introduction to Integrated Circuits (IC) Technology |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 2 - Introduction to fabrication of IC: Substrates |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 3 - Introduction to IC fabrication |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 4 - Introduction to IC fabrication (Continued...) |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 5 - Introduction to the fabrication of sensors |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 6 - Introduction to fabrication technology |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 7 - Introduction to fabrication technology (Continued...) |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 8 - Introduction to fabrication technology (Continued...) |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 9 - Introduction to fabrication technology (Continued...) |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 10 - Introduction to fabrication technology (Continued...) |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 11 - Process flow for Fabrication of MOSFETs |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 12 - Operation of Enhancement type MOSFET |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 13 - Operation of Depletion type MOSFET |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 14 - MOSFETs Characteristics and Applications (Current Mirrors) |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 15 - Introduction to Operational Amplifiers |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 16 - Operational Amplifier Characteristics |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 17 - Operational Amplifier Characteristics (Continued...) |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 18 - Characteristics of an op-amp (Continued...) |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 19 - Operational Amplifier Configarations |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 20 - Operational Amplifier Configarations (Continued...) |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 21 - Applications of Operational Amplifier: Differential Amplifier |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 22 - Applications of Operational Amplifier: Integerator |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 23 - Applications of Operational Amplifier: Differentiator |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 24 - Introduction to Passive and Active Filters and op-amp as Low Pass Filter |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 25 - Operational Amplifier as a High Pass Filter |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 26 - Operational Amplifier as a Band Pass and Band Reject Filter |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 27 - Introduction to Oscillator |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 28 - RC Phase Shift Oscillator using Op-amp |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 29 - Wein Bridge Oscillator using Op-amp |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 30 - Hartley and Colpitts Oscillator using Op-amp |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 31 - Working of Crystal Oscillators |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 32 - Construction and Operation of UJT Relaxation Oscillators |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 33 - Introduction to Noise and its Types |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 34 - Analysis of Data Sheets of an Op-Amp |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 35 - Analysis of Data Sheets of an Op-Amp (Continued...) |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 36 - Analysis of Data Sheets of an Op-Amp (Continued...) |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 37 - Experiment - Introduction to Laboratory Equipment |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 38 - Experiment - Measurement of Active and Passive elements using Multimeter |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 39 - Experiment - Working with Laboratory Equipment: Power Supply |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 40 - Experiment - Working with Laboratory Equipment: Function Generator, Oscilloscope |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 41 - Experiment - Op-Amp Characteristics: Input Bias Current |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 42 - Experiment - Op-Amp Characteristics: Input Offset Current |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 43 - Experiment - Op-Amp Characteristics: Input Offset Voltage |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 44 - Experiment - Op-Amp as Inverting Amplifier |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 45 - Experiment - Op-Amp as Non-Inverting Amplifier |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 46 - Experiment - To study input and output voltage range of an Op-Amp |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 47 - Experiment - Differential amplifier using op-amp |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 48 - Experiment - To study the gain of instrumentation amplifier |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 49 - Experiment - Summing amplifier using op-amp |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 50 - Experiment - To study op-amp based comparator |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 51 - Experiment - To study op-amp based integrator and differentiator |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 52 - Experiment - Study of passive low pass filter |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 53 - Experiment - Op-amp based active low pass filter |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 54 - Experiment - Passive and active high pass filter |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 55 - Experiment - Introduction to experimental set-up of band pass filter |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 56 - Experiment - Passive and active band pass filter |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 57 - Experiment - Introduction to experimental set-up for band reject filter |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 58 - Experiment - Active band reject filter |
| Link |
NOC:Integrated Circuits, MOSFETs, Op-Amps and their Applications |
Lecture 59 - Experiment - Peak detector circuit using Op-Amp |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 1 - Quantum Mechanics: Concept of Wave Particle, Schrodinders Equation |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 2 - Quantum Mechanics: Particle in a Box |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 3 - Quantum Mechanics: Particle in a Box (Continued...), Harmonic Oscillator |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 4 - Solids: Formation of Bands, Kronig-Penny Model |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 5 - Solids: Kronig-Penny Model (Continued...) |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 6 - Solids: Electrons and Holes |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 7 - Solids: Electrons and Holes (Continued...) |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 8 - Solids: Crystals |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 9 - Density of States |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 10 - Density of States (Continued...), Fermi Function |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 11 - Fermi Function - Carrier Concentration |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 12 - Doping |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 13 - Doping (Continued...) |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 14 - Recombination and Generation |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 15 - Recombination and Generation (Continued...) |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 16 - Recombination and Generation (Continued...), Charge Transport |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 17 - Charge Transport (Continued...) |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 18 - Continuity Equation |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 19 - Junctions |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 20 - Metal Semiconductor Junctions |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 21 - Schottky Contact: Electrostatics |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 22 - Schottky Contact: Current-Voltage (IV) Characteristics |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 23 - Schottky Contact: IV Characteristics (Continued...) |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 24 - Schottky Contact: Small Signal Impedance |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 25 - PN Junctions: Electrostatics |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 26 - PN Junctions: IV Characteristics |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 27 - PN Junctions: Small Signal Impedance |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 28 - PN Junctions: Non-Idealities |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 29 - Bipolar Junction Transistors (BJT) |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 30 - BJT: IV Characteristics |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 31 - BJT: Non-Idealities and Equivalent Circuit Modeling |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 32 - Metal Oxide Semiconductor Capacitor (MOSCAP) |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 33 - MOSCAP (Continued...) |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 34 - MOSCAP: CV Characteristics |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 35 - MOSCAP: CV Characteristics (Continued...) |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 36 - MOSFET: Introduction |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 37 - MOSFET: I-V characteristics |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 38 - MOSFET: I-V characteristics (Continued...) |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 39 - MOSFET: I-V characteristics (Continued...) |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 40 - Subthreshold swing, Additional concepts |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 41 - Trapped charge, Body-bias |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 42 - Scaling of MOSFETs |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 43 - Scaling of MOSFETs (Continued...), Leakage currents in MOSFETs |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 44 - MOSFET characterization: Parameter extraction |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 45 - MOSFET characterization: Trapped charges, contact resistance |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 46 - MOSFET as a switch |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 47 - MOSFET as a switch (Continued...) |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 48 - Amplifiers using MOSFET |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 49 - Amplifiers using MOSFET (Continued...) |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 50 - Circuits: Frequency Response, Noise |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 51 - Introduction: Amorphous Semiconductors |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 52 - Thin Film Transistors |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 53 - Tutorials Session - 1 |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 54 - Tutorials Session - 2 |
| Link |
NOC:Semiconductor Devices and Circuits |
Lecture 55 - Tutorials Session - 3 |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 1 - Introduction to Microengineering Devices |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 2 - Introduction to Microengineering Devices (Continued...) |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 3 - Introduction to Microengineering Devices (Continued...) |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 4 - Silicon, silicon di-oxide and photolithography |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 5 - Silicon, silicon di-oxide and photolithography (Continued...) |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 6 - Physical Vapour Deposition |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 7 - Physical Vapour Deposition (Continued...) |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 8 - Photolithography |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 9 - Mask Aligner |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 10 - Mask Aligner (Continued...) |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 11 - Micromachining |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 12 - Micromachining: Fabrication of VOC Sensor |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 13 - Micromachining: Fabrication of VOC Sensor (Continued...) |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 14 - Micromachining: Fabrication of VOC Sensor and Cantilever |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 15 - Chemical Vapour Deposition |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 16 - Typical Microfabricated Devices for Biomedical Applications |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 17 - Cancer Diagnostic Tool |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 18 - Process flow for Fabrication of Micro Heater |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 19 - Process flow for Fabrication of Interdigited Electrodes |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 20 - Process flow for Fabrication of Interdigited Electrodes (Continued...) |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 21 - Process flow for Fabrication of ETM phenotyping |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 22 - Process flow for Fabrication of Piezo canteliver |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 23 |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 24 |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 25 |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 26 |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 27 - Microchip for Rapid Drug Screening |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 28 - Microchip for Rapid Drug Screening (Continued...) |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 29 - A Microfluidic chip for rapid bacterial antibiotic Susceptibility testing |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 30 - Smart Catheter |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 31 - Smart Catheter: Flexible Force Sensor |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 32 - Smart Catheter: Flexible Force Sensor (Continued...) |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 33 - Tissue and Cell Culture Techniques |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 34 - Clean Room: Equipments Required |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 35 - GLP: Gowning Procedure for using Lab |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 36 - Introduction to Equipments: Refridgerator |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 37 - Gowning Procedure for using Biological Lab Setup |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 38 - Introduction to Equipments: Desiccator |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 39 - Introduction to Equipments: Impedance Analyzer |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 40 - Introduction to Equipments: DAQ |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 41 - Function generator, Multimeter, Sampling, LabVIEW, NI-CDAQ |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 42 - Introduction to Equipments: Stereo Microscope |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 43 - Introduction to Equipments: Metallurgical Microscope |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 44 - Introduction to Equipments: Inverted Microscope |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 45 - Introduction to Equipments: Fire Alarm |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 46 - Introduction to Equipments: Bio-safety Hood |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 47 - Introduction to Equipments: Peristaltic Pump |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 48 - Introduction to Equipments: Incubator |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 49 - Introduction to Equipments: Oven |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 50 - Introduction to Equipments: Micromanipulator |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 51 - PDMS Moulding |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 52 - 3D Printing |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 53 - Introduction to Fabricated Sensors |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 54 - Simulation: Electro- Thermo- Mechanical Properties of Micro-heater using COMSOL Multiphysics |
| Link |
NOC:Fabrication Techniques for MEMs-based Sensors: Clinical Perspective |
Lecture 55 - Simulation: Electro- Thermo- Mechanical Properties of Micro-heater using COMSOL Multiphysics (Continued...) |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 1 - Introduction/Summary on Op-amps |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 2 - Introduction/Summary on Op-amps (Continued...) |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 3 - Introduction/Summary on Op-amps (Continued...) |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 4 - Effect of Loading and Input Impedance - Part 1 |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 5 - Effect of Loading and Input Impedance - Part 2 |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 6 - Effect of Loading and Input Impedance - Part 3 |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 7 - Effect of Loading and Input Impedance - Part 4 |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 8 - Introduction to an Analog Circuit Development Board (TI ASLK Pro) |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 9 - Op-amp Applications: Half Wave Rectifier |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 10 - Op-amp Applications: Full Wave Rectifier |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 11 - Op-amp Applications: Clipper |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 12 - Op-amp Circuits using Diodes: Clamper |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 13 - Understanding the Range of Feedback Amplifiers |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 14 - Op-amps as Phase Shift Oscillator |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 15 - Op-amp as Wein Bridge Oscillator |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 16 - Op-amp as Hartley Oscillator |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 17 - Op-amp as Colpitts Oscillator |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 18 - Op-amps as Comparator: Window Comparator |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 19 - Op-amp with Positive Feedback: Inverting Schmitt Trigger |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 20 - Op-amp with Positive Feedback: Non-Inverting Schmitt Trigger |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 21 - Op-amp with Positive Feedback: Astable Multivibrator |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 22 - Op-amp with Positive Feedback: Monostable Multivibrator |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 23 - Op-amp based Voltage Controlled Current Source |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 24 - Measure of Unknown Resistance by Constant Current Drive Circuit Implemented using Op-amp |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 25 - Design and Development of Temperature Controlled Circuit using Op-amp as ON-OFF, Proportional and Proportional Integral Controllers: Introduction |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 26 - Implemetation of Error Detector Cirucit and Signal Conditioning Circuit for Temperature Control |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 27 - Implementation of Plant/Heating Circuit and ON-OFF Controller |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 28 - Implementation of P and PI Controllers |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 29 - Experiment on Controlling the Temperature on the Plant using different Controllers |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 30 - Experiment: Design and Implementation of Signal Conditioning unit for Thermocouple Cold Junction Compensation |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 31 - Introduction to ECG Experiment |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 32 - Desing and Implementation of ECG Preprocessing Stage - Part 1 |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 33 - Desing and Implementation of ECG Preprocessing Stage - Part 2 |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 34 - Desing and Implementation of ECG Preprocessing Stage - Part 3 |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 35 - Desing and Implementation of ECG Preprocessing Stage - Part 4 |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 36 - Desing and Implementation of Peak Detetor and Thresholding Circuit for ECG Signal Conditioning |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 37 - Live Demonstration on ECG Signal Acquistion, Conditioning and Measurement of BPM |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 38 - Understanding Analog Multipliers using Development Board |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 39 - Application: Automatic Gain Controller using Development Board |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 40 - Introdution to Data-Acquisition |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 41 - Analog to Digital Conversion Circuits and Experiment on 2-bit Flash Type ADC |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 42 - Digital to Analog Conversion Circuits and Experiment on 4-bit R-2R DAC |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 43 - DAC Basics using Development Board - Introduction |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 44 - Understanding DAC 7821 Datasheet |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 45 - Basic DAC Experiment on Variable Gain Amplifier |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 46 - Understanding DAC: Experiment on Variable Square and Triangular Wave Generator |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 47 - Introduction to CDAQ (Compact DAQ) |
| Link |
NOC:Op-Amp Practical Applications: Design, Simulation and Implementation |
Lecture 48 - Software-in-Loop based Temperature Controller using CDAQ and LabVIEW |
| Link |
NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping |
Lecture 1 - Products prototyping |
| Link |
NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping |
Lecture 2 - Prototype concepts |
| Link |
NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping |
Lecture 3 - Physical simulation |
| Link |
NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping |
Lecture 4 - Rapid Prototyping |
| Link |
NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping |
Lecture 5 - Products detailing |
| Link |
NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping |
Lecture 6 - Advantages of Design Modelling |
| Link |
NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping |
Lecture 7 - Sample product concept |
| Link |
NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping |
Lecture 8 - Product sample exercise 1 |
| Link |
NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping |
Lecture 9 - Exercise in product sample 2 |
| Link |
NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping |
Lecture 10 - Integration of components 1 |
| Link |
NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping |
Lecture 11 - Components integration in models |
| Link |
NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping |
Lecture 12 - 3D printing detail 1 |
| Link |
NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping |
Lecture 13 - 3D printing detail 2 |
| Link |
NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping |
Lecture 14 - 3D print assembly design |
| Link |
NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping |
Lecture 15 - Heat spreader to 3D print |
| Link |
NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping |
Lecture 16 - Metallic, 3D, build up 1 |
| Link |
NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping |
Lecture 17 - 3D build up 2 |
| Link |
NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping |
Lecture 18 - 3D design 1 from Photo snap |
| Link |
NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping |
Lecture 19 - 3D design 2 from Photo snap |
| Link |
NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping |
Lecture 20 - 3D Laser cuts 1, prints |
| Link |
NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping |
Lecture 21 - 3D Laser cuts 2, open source public prints |
| Link |
NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping |
Lecture 22 - Demo of 3D Part print |
| Link |
NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping |
Lecture 23 - Building a model 1 |
| Link |
NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping |
Lecture 24 - Building a model 2 |
| Link |
NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping |
Lecture 25 - Common place objects |
| Link |
NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping |
Lecture 26 - Materials |
| Link |
NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping |
Lecture 27 - Future 3D In biology |
| Link |
NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping |
Lecture 28 - Product clamp variants |
| Link |
NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping |
Lecture 29 - Product clamp build up |
| Link |
NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping |
Lecture 30 - Multi direction features |
| Link |
NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping |
Lecture 31 - Multi direction features (Continued...) |
| Link |
NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping |
Lecture 32 - Fastening detail |
| Link |
NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping |
Lecture 33 - Flat objects |
| Link |
NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping |
Lecture 34 - Modularity |
| Link |
NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping |
Lecture 35 - Creative design work |
| Link |
NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping |
Lecture 36 - Creative designs |
| Link |
NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping |
Lecture 37 - Using flat features |
| Link |
NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping |
Lecture 38 - Organic shapes |
| Link |
NOC:Physical Modelling for Electronics Enclosures using Rapid prototyping |
Lecture 39 - Simulation for alternate use |
| Link |
NOC:Recent Advances in Transmission Insulators |
Lecture 1 - Introduction to Transmission and distribution Insulators |
| Link |
NOC:Recent Advances in Transmission Insulators |
Lecture 2 - Manufacturing process for Ceramic/glass Insulators |
| Link |
NOC:Recent Advances in Transmission Insulators |
Lecture 3 - Manufacturing process for Polymeric Insulators |
| Link |
NOC:Recent Advances in Transmission Insulators |
Lecture 4 - Design Considerations of Transmission Insulators |
| Link |
NOC:Recent Advances in Transmission Insulators |
Lecture 5 - Field experience of Ceramic/Glass and Polymeric Insulators |
| Link |
NOC:Recent Advances in Transmission Insulators |
Lecture 6 - Comparison of Transmission Insulators |
| Link |
NOC:Recent Advances in Transmission Insulators |
Lecture 7 - Environmental issues with transmission Insulators |
| Link |
NOC:Recent Advances in Transmission Insulators |
Lecture 8 - Reliability and Philosophy of Testing |
| Link |
NOC:Recent Advances in Transmission Insulators |
Lecture 9 - Testing of Ceramic, Glass and Composite Insulators |
| Link |
NOC:Recent Advances in Transmission Insulators |
Lecture 10 - Cleaning methods adopted for Insulators |
| Link |
NOC:Recent Advances in Transmission Insulators |
Lecture 11 - Cleaning methods adopted for Insulators (Continued...) |
| Link |
NOC:Recent Advances in Transmission Insulators |
Lecture 12 - Coating techniques for Insulators |
| Link |
NOC:Recent Advances in Transmission Insulators |
Lecture 13 - Introduction to Hybrid Insulators |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 1 - Introduction to semiconductors |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 2 - Introduction to energy bands |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 3 - Fundamentals of band structure |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 4 - Band structure (Continued...) and Fermi-Dirac distribution |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 5 - Density of states |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 6 - Doping and intrinsic carrier concentration |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 7 - Equilibrium carrier concentration |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 8 - Temperature-dependence of carrier concentration |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 9 - High doping effects and incomplete ionization |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 10 - Carrier scattering and mobility |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 11 - Low-field and high-field transport, introduction to diffusion |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 12 - Drift-diffusion and trap statistics |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 13 - Current continuity equation |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 14 - Continuity equation (Continued...) and introduction to p-n junction |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 15 - p-n junction under equilibrium |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 16 - p-n junction under equilibrium (Continued...) |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 17 - p-n junction under bias |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 18 - p-n junction under bias (Continued...) |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 19 - p-n junction: generation-recombination currents |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 20 - Application of p-n junctions |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 21 - Breakdown of junction and C-V profiling |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 22 - Introduction to Schottky junction |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 23 - Schottky junction under equilibrium |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 24 - Schottky junction under bias |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 25 - Introduction to transistors: BJT |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 26 - Basics of BJT |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 27 - Working of BJT |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 28 - Working of BJT (Continued...) |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 29 - Delays in BJT |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 30 - MOS: Introduction |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 31 - MOS: Capacitance-voltage |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 32 - Ideal MOS system: derivation of threshold voltage |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 33 - MOS C-V in more details |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 34 - MOSFET - An introduction |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 35 - Gradual Channel Approximation: Derivation of I-V characteristics |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 36 - Substrate bias effect and subthreshold conduction in MOSFET |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 37 - Short Channel Effects in MOSFET |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 38 - Introduction to compound semiconductors |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 39 - Basics of heterojunctions |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 40 - Band diagram of heterojunctions |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 41 - Heterojunctions (Continued....) |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 42 - Heterojunction transistors |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 43 - III-nitrides |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 44 - Solar cell basics |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 45 - Solar cell (Continued...) |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 46 - Solar cell: Shockley Quiesser Limit |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 47 - Basics of photodetectors |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 48 - Photodetectors: figures of merit and types of devices |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 49 - Junction photodetectors |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 50 - Basics of recombination |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 51 - Basics of LED |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 52 - LED: light extraction and design issues |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 53 - Visible LED: photometry and colorimetry |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 54 - Transistors for power electronics |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 55 - Transistors for power electronics (Continued...) and for RF electronics |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 56 - Transistors for RF (Continued...) and transistors for Memory |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 57 - Basics of microelectronic fabrication |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 58 - Microelectronic fabrication (Continued...) |
| Link |
NOC:Fundamentals of Semiconductor Devices |
Lecture 59 - Summary |
| Link |
NOC:Advanced IOT Applications |
Lecture 1 - Overview of localization using IoT sensors |
| Link |
NOC:Advanced IOT Applications |
Lecture 2 - Outdoor localization without GPS - I |
| Link |
NOC:Advanced IOT Applications |
Lecture 3 - Outdoor localization without GPS - II |
| Link |
NOC:Advanced IOT Applications |
Lecture 4 - Outdoor localization using elevation - pressure mapping |
| Link |
NOC:Advanced IOT Applications |
Lecture 5 - Localization using IMU sensors - I |
| Link |
NOC:Advanced IOT Applications |
Lecture 6 - Localization using IMU sensors - II |
| Link |
NOC:Advanced IOT Applications |
Lecture 7 - Localization using IMU sensors - III |
| Link |
NOC:Advanced IOT Applications |
Lecture 8 - RFID based localization - I |
| Link |
NOC:Advanced IOT Applications |
Lecture 9 - RFID based localization - II |
| Link |
NOC:Advanced IOT Applications |
Lecture 10 - Simulation of simple algorithms for object detection |
| Link |
NOC:Advanced IOT Applications |
Lecture 11 - Building smart vehicle for collision avoidance |
| Link |
NOC:Advanced IOT Applications |
Lecture 12 - Basic computer vision algorithms - Part 1 |
| Link |
NOC:Advanced IOT Applications |
Lecture 13 - Basic computer vision algorithms - Part 2 |
| Link |
NOC:Advanced IOT Applications |
Lecture 14 - Code walkthrough of computer vision algorithm |
| Link |
NOC:Advanced IOT Applications |
Lecture 15 - Introduction to LiDAR |
| Link |
NOC:Advanced IOT Applications |
Lecture 16 - Range estimation and Obstacle avoidance |
| Link |
NOC:Advanced IOT Applications |
Lecture 17 - Introduction to vehicle platooning |
| Link |
NOC:Advanced IOT Applications |
Lecture 18 - Building blocks for autonomous vehicles - 1 |
| Link |
NOC:Advanced IOT Applications |
Lecture 19 - Building blocks for autonomous vehicles - 2 |
| Link |
NOC:Advanced IOT Applications |
Lecture 20 - On Board Diagnostics and protocols |
| Link |
NOC:Advanced IOT Applications |
Lecture 21 - Diagnostic services and fuel-injection ratio control unit |
| Link |
NOC:Advanced IOT Applications |
Lecture 22 - Real time event processing and Anomaly detection |
| Link |
NOC:Advanced IOT Applications |
Lecture 23 - OBD-II and stream processing demonstration |
| Link |
NOC:Advanced IOT Applications |
Lecture 24 - Speech recognition - Part 1 |
| Link |
NOC:Advanced IOT Applications |
Lecture 25 - Speech recognition - Part 2 |
| Link |
NOC:Advanced IOT Applications |
Lecture 26 - Speech recognition - Part 3 |
| Link |
NOC:Advanced IOT Applications |
Lecture 27 - Speech recognition - Part 4 |
| Link |
NOC:Advanced IOT Applications |
Lecture 28 - Device Security - Part 1 |
| Link |
NOC:Advanced IOT Applications |
Lecture 29 - Device Security - Part 2 |
| Link |
NOC:Advanced IOT Applications |
Lecture 30 - Device Security - Part 3 |
| Link |
NOC:Advanced IOT Applications |
Lecture 31 - Need for air quality monitoring |
| Link |
NOC:Advanced IOT Applications |
Lecture 32 - Air quality : pollutants and standards |
| Link |
NOC:Advanced IOT Applications |
Lecture 33 - Introduction to air quality sensors |
| Link |
NOC:Advanced IOT Applications |
Lecture 34 - Calibration techniques for IoT air quality sensors |
| Link |
NOC:Advanced IOT Applications |
Lecture 35 - Sensor types : semiconductor and electrochemical |
| Link |
NOC:Advanced IOT Applications |
Lecture 36 - Air quality : Overview of system design |
| Link |
NOC:Advanced IOT Applications |
Lecture 37 - Air quality : System design - Part 1 |
| Link |
NOC:Advanced IOT Applications |
Lecture 38 - Air quality : System design - Part 2 |
| Link |
NOC:Advanced IOT Applications |
Lecture 39 - Air quality : Real time measurement for a drive cycle |
| Link |
NOC:Advanced IOT Applications |
Lecture 40 - Introduction to First Responder networks |
| Link |
NOC:Advanced IOT Applications |
Lecture 41 - First Responders - Applications - Part 1 |
| Link |
NOC:Advanced IOT Applications |
Lecture 42 - First Responders - Applications - Part 2 |
| Link |
NOC:Advanced IOT Applications |
Lecture 43 - Cargo monitoring for tamper detection - Part 1 |
| Link |
NOC:Advanced IOT Applications |
Lecture 44 - Cargo monitoring for tamper detection - Part 2 |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 1 - Tissue and Cell Culture Techniques: Introduction |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 2 - Tissue and Cell Culture Techniques: Methods |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 3 - Tissue and Cell Culture Techniques: Devices |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 4 - Cleanroom Equipments |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 5 - Cleanroom Equipments (Continued...) |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 6 - Introduction to photolithography |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 7 - Photolithography: Mask Aligner |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 8 - Photolithography: Designing Mask Aligner |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 9 - Micromachining Techniques |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 10 - Breast Cancer and Oral Cancer Statistics |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 11 - Fabrication of MEMs-based Biochip for cancer diagnosis |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 12 - Fabrication of MEMs-based Biochip for cancer diagnosis (Continued...) |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 13 - Fabrication of Piezoresistive Sensor |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 14 - Fabrication of Piezoresistive Sensor (Continued...) |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 15 - Fabrication of SU-8 pillar on piezoresistive Sensor |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 16 - Portable Cancer Diagnostic Tool Using a Disposable MEMS-Based Biochip |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 17 - Mechanical Phenotyping of Breast Cancer using MEMS |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 18 - Electrical characterization of Breast Tissue Cores |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 19 - Fabrication of MEMS-based sensor for electro-mechanical phenotyping of breast cancer |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 20 - Fabrication of electro-mechanical sensor (Continued...) |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 21 - Assemby of the electro-mechanical sensor |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 22 - Silicon substrate devices for breast cancer diagnosis |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 23 - Understanding the methods and mechanism to study cell morphology |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 24 - Cytology - A detail study on Spin Coater and Cytospin |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 25 - Techniques in oral cytology studies |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 26 - Techniques in cell morphology analysis |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 27 - Comparitive study on diagnostic tools for oral cancer screening |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 28 - Basic building blocks of Electronics System: Amplifiers |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 29 - Basic building blocks of Electronics System: Amplifiers (Continued...) |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 30 - Basic building blocks of Electronics System: Amplifiers (Continued...) |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 31 - Basic building blocks of Electronics System: Filters |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 32 - Basic building blocks of Electronics System: Filters (Continued...) |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 33 - Basic building blocks of Electronics System: Filters (Continued...) |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 34 - Basic building blocks of Electronics System: Data Converteres |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 35 - Basic building blocks of Electronics System: Data Converteres (Continued...) |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 36 - Basic building blocks of Electronics System: Signal Conditioning Circuits |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 37 - Etching Process and Figure of Merits |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 38 - ECG Signal Processing to calculate BPM |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 39 - ECG Signal Processing to calculate BPM (Continued...) |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 40 - ECG Signal Processing to calculate BPM (Continued...) |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 41 - ECG Signal Processing to calculate BPM (Continued...) |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 42 - ECG Signal Processing to calculate BPM (Continued...) |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 43 - ECG Signal Processing to calculate BPM [Continued...) |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 44 - MEMS based Force Sensor for Catheter Contact Force Measurement |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 45 - 3D Printing: Introduction and Work Flow |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 46 - 3D Fabrication Techniques |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 47 - Gowning Procedure in Clean Room |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 48 - Introduction to Equipments: Desiccators |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 49 - PDMS Moulding procedure |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 50 - Introduction to Equipments: Pristaltic Pump |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 51 - Introduction to Equipments: Stereo Microscopy, Metallurgical Microscopy, Inverted Microscopy |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 52 - Micromanipulator |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 53 - Biosafety Cabinet and Ultrasonicbath |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 54 - Incubator Shaker |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 55 - Hotplate and Microcentrifuge |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 56 - Autoclave |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 57 - Impedance Analyser |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 58 - Rapid Prototyping using 3D Printer |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 59 - Etching Process |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 60 - Electronic System for Drug Screening |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 61 - Introduction to Equipments: DAQ |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 62 - Introduction to Equipments: DAQ (Continued...) |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 63 - Electronic Module for Gas sensor |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 64 - Fabrication process flow for a metal oxide gas sensor |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 65 - MEMS Simulation using Comsol Multiphysics |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 66 - Introduction to COMSOL Multiphysics |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 67 - COMSOL Examples for MEMS Applications |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 68 - COMSOL Examples for MEMS Applications (Continued...) |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 69 - Demonstration of Thermal Acutator and Understanding of Application Builder |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 70 - Closed loop control of temperature sensor |
| Link |
NOC:Electronic Systems for Cancer Diagnosis |
Lecture 71 - Experimental Set-up of closed loop control of temperature sensor |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 1 - Introduction to Op-amp |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 2 - Introduction Wafer Manufacturing Process and Clean room Protocols |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 3 - Introduction to Fabrication Process Technology and Op-amp |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 4 - Op-amp Characteristics and Datasheet Parameters |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 5 - Overview of Active Filters and Oscillators |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 6 - Overview of Op-amp Oscillators |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 7 - Introduction to ECG Experiment |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 8 - Design and Implementation of ECG Preprocessing Stage - Part 1 |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 9 - Design and Implementation of ECG Preprocessing Stage - Part 2 |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 10 - Design and Implementation of ECG Preprocessing Stage - Part 3 |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 11 - Design and Implementation of ECG Preprocessing Stage - Part 4 |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 12 - Design and Implementation of Peak Detector and Thresholding Circuit for ECG Signal Conditioning |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 13 - Experiment: Live Demonstration of ECG Signal Acquistion, Conditioning and Measurement of BPM |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 14 - Application: ECG Signals for detecting AF and the role of sensors |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 15 - Photolithography: Masks |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 16 - Understanding the process of photolithography |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 17 - Photolithography: Mask Aligner |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 18 - Photolithography: Designing of Mask Aligner System |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 19 - Fabrication of Piezoresistive Sensor |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 20 - Fabrication of MEMS based Catheter Contact Force Sensor |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 21 - Design of Speed Control of DC Motor: Introduction |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 22 - Design of Speed Control of DC Motor: Circuit Explanation |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 23 - Design of Speed Control of DC Motor: Encoder Calibration |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 24 - Design of Speed Control of DC Motor: Encoder Signal Conditioning Circuit - 1 |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 25 - Design of Speed Control of DC Motor: Encoder Signal Conditioning Circuit - 2 |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 26 - Design of Speed Control of DC Motor: Encoder Signal Conditioning Circuit - 3 |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 27 - Design of Speed Control of DC Motor: Encoder Signal Conditioning Circuit - 4 |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 28 - Design of Speed Control of DC Motor: Error Amplifier |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 29 - Design of Speed Control of a DC Motor using Op-amp: Controllers |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 30 - Design of Speed Control of a DC Motor using Op-amp: Circuit Implementation |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 31 - Design of Speed Control of a DC Motor using DAQ - Part 1 |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 32 - Design of Speed Control of a DC Motor using DAQ - Part 2 |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 33 - Design of Speed Control of a DC Motor using DAQ - Part 3 |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 34 - Introduction to Hot-Wire Anemometer |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 35 - Signal-conditioning Circuit for Hot-Wire Anemometer |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 36 - Signal-conditioning Circuit for Hot-Wire Anemometer Part 2 |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 37 - Signal-conditioning Circuit for Hot-Wire Anemometer: Simulation |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 38 - Signal-conditioning Circuit for Hot-Wire Anemometer: Experiment |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 39 - Introduction to Gas Sensors |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 40 - Fabrication Process for Gas Sensor |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 41 - Signalconditioning Circuit for Operating Heater Voltage of MQ-7 Gas Sensor - Part 1 |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 42 - Signalconditioning Circuit for Operating Heater Voltage of MQ-7 Gas Sensor - Part 2 |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 43 - Signalconditioning Circuit for Operating Heater Voltage of MQ-7 Gas Sensor - Part 3 |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 44 - Fundamentals of Electrophysiological signals |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 45 - Fundamentals of EEG Signal |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 46 - Application of EEG Signal for Detection of Hearing Loss |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 47 - Closed loop control of temperature using DAQ and LabVIEW |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 48 - Experimental Set-up of closed loop control of temperature sensor |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 49 - Introduction to MEMS Simulation using Comsol Multiphysics |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 50 - Introduction to COMSOL Multiphysics |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 51 - COMSOL Examples for MEMS Applications |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 52 - COMSOL Examples for MEMS Applications (Continued...) |
| Link |
NOC:Electronic Modules for Industrial Applications using Op-Amps |
Lecture 53 - Demonstration of Thermal Acutator and Understanding of Application Builder |
| Link |
NOC:Sensors and Actuators |
Lecture 1 - Sensors - Part 1 |
| Link |
NOC:Sensors and Actuators |
Lecture 2 - Sensors - Part 2 |
| Link |
NOC:Sensors and Actuators |
Lecture 3 - Sensors - Part 3 |
| Link |
NOC:Sensors and Actuators |
Lecture 4 - Sensors - Part 4 |
| Link |
NOC:Sensors and Actuators |
Lecture 5 - Sensors - Part 5 |
| Link |
NOC:Sensors and Actuators |
Lecture 6 - Recent Microsensors based system: E-Nose |
| Link |
NOC:Sensors and Actuators |
Lecture 7 - Recent Microsensors based system: Force Sensor, Basics of Actuators |
| Link |
NOC:Sensors and Actuators |
Lecture 8 - Microfabrication Basics |
| Link |
NOC:Sensors and Actuators |
Lecture 9 - Introduction to cleanroom |
| Link |
NOC:Sensors and Actuators |
Lecture 10 - Cleanroom Protocols |
| Link |
NOC:Sensors and Actuators |
Lecture 11 - Introduction to Cleanroom Equipments: Micromanipulator, Stereo Microscope, metallurgical microscope, Incubator, Static Incubator, Inverted Microscope, Oven, Autoclave, Sonicator |
| Link |
NOC:Sensors and Actuators |
Lecture 12 - Fabrication Process Flow of Microheater and Micromachining |
| Link |
NOC:Sensors and Actuators |
Lecture 13 - Wafer Bonding and PDMS moulding |
| Link |
NOC:Sensors and Actuators |
Lecture 14 - Overview of MEMS based sensors |
| Link |
NOC:Sensors and Actuators |
Lecture 15 - Introduction to Cleanroom Equipments: Impedance Analyzer, LCR Meter, Micromanipulator |
| Link |
NOC:Sensors and Actuators |
Lecture 16 - Introduction to Cleanroom Equipments: Biosafety Hood and safety |
| Link |
NOC:Sensors and Actuators |
Lecture 17 - Process Sensor Process Flow, Cell based Diagnosis Device |
| Link |
NOC:Sensors and Actuators |
Lecture 18 - Basics of Patterning and Drug Screening Device |
| Link |
NOC:Sensors and Actuators |
Lecture 19 - MEMS applications in automobile system |
| Link |
NOC:Sensors and Actuators |
Lecture 20 - Arduino Interfacing for Sensors and Actuators |
| Link |
NOC:Sensors and Actuators |
Lecture 21 - Demonstration of DC Motor as an actuator |
| Link |
NOC:Sensors and Actuators |
Lecture 22 - Demonstration of peristaltic pump using Arduino |
| Link |
NOC:Sensors and Actuators |
Lecture 23 - Demonstration of PDMS Patterning |
| Link |
NOC:Sensors and Actuators |
Lecture 24 - Crystal Orientation and Si-SiO2 interface |
| Link |
NOC:Sensors and Actuators |
Lecture 25 - Surface Profilometry and Physical Vapour Deposition Techniques |
| Link |
NOC:Sensors and Actuators |
Lecture 26 - Introduction to COMSOL Multiphysics and Modelling Examples |
| Link |
NOC:Sensors and Actuators |
Lecture 27 - Demonstration of Thermal Actuators using COMSOL |
| Link |
NOC:Sensors and Actuators |
Lecture 28 - Demonstration of MQ3 Gas sensor using Arduino |
| Link |
NOC:Sensors and Actuators |
Lecture 29 - Photolithography - Part 1 |
| Link |
NOC:Sensors and Actuators |
Lecture 30 - Signal Conditioning Circuit for Temperature Sensors |
| Link |
NOC:Sensors and Actuators |
Lecture 31 - Demonstration of Microheaters in COMSOL Multiphysics |
| Link |
NOC:Sensors and Actuators |
Lecture 32 - Introduction to Cleanroom facilities for biomedical applications |
| Link |
NOC:Sensors and Actuators |
Lecture 33 - Physical Deposition Techniques |
| Link |
NOC:Sensors and Actuators |
Lecture 34 - Demonstration on peristaltic pump in cleanroom |
| Link |
NOC:Sensors and Actuators |
Lecture 35 - Installation of Oxygen Plasma System |
| Link |
NOC:Sensors and Actuators |
Lecture 36 - Demonstration of IR Based Sensor using Arduino |
| Link |
NOC:Sensors and Actuators |
Lecture 37 - Illustration of fabricated Microfluidic Device for biochips with PDMS moulding |
| Link |
NOC:Sensors and Actuators |
Lecture 38 - Photolithography - Part 2 |
| Link |
NOC:Sensors and Actuators |
Lecture 39 - Photolithography - Part 3 |
| Link |
NOC:Sensors and Actuators |
Lecture 40 - Introduction and Demonstration of Shape Memory Alloy |
| Link |
NOC:Sensors and Actuators |
Lecture 41 - Applications of Shape Memory Alloy as a light weight actuators |
| Link |
NOC:Sensors and Actuators |
Lecture 42 - Discussion on Fabricated Sensor with Silicon as Substrate |
| Link |
NOC:Sensors and Actuators |
Lecture 43 - Discussion and Microscopic Inspection of Fabricated Sensor with Silicon as a Substrate |
| Link |
NOC:Sensors and Actuators |
Lecture 44 - Tissue Deparaffinization for Biosensors |
| Link |
NOC:Sensors and Actuators |
Lecture 45 - Clean room guidelines and Cancer Dianostic tool |
| Link |
NOC:Sensors and Actuators |
Lecture 46 - Basics of Pressure Sensor and Demonstration using Arduino Microcontroller |
| Link |
NOC:Sensors and Actuators |
Lecture 47 - Basics of Stepper Motor and Demonstration using Arduino Microcontroller |
| Link |
NOC:Sensors and Actuators |
Lecture 48 - Microscopic Inspection of Diced wafers and CNT Sensing Layer for fabricated sensor |
| Link |
NOC:Sensors and Actuators |
Lecture 49 - Process flow for Microcantilever for Mechanical Phenotyping of breast cancer tissues |
| Link |
NOC:Sensors and Actuators |
Lecture 50 - Applications of microcantilever for Mechanical Phenotyping of breast cancer tissues |
| Link |
NOC:Sensors and Actuators |
Lecture 51 - Installation and Introduction to Physical Vapour Deposition System |
| Link |
NOC:Sensors and Actuators |
Lecture 52 - Human Machine Interface for Controlling Deposition System |
| Link |
NOC:Sensors and Actuators |
Lecture 53 - Flexible MEMS for phenotyping tissue properties - I |
| Link |
NOC:Sensors and Actuators |
Lecture 54 - Flexible MEMS for phenotyping tissue properties - II |
| Link |
NOC:Sensors and Actuators |
Lecture 55 - System Demonstration for Physical Vapor Deposition |
| Link |
NOC:Sensors and Actuators |
Lecture 56 - Introduction to CAD Modelling - I |
| Link |
NOC:Sensors and Actuators |
Lecture 57 - Introduction to CAD Modelling - II |
| Link |
NOC:Sensors and Actuators |
Lecture 58 - Biosensors for ETM Phenotyping of breast cancer tissues for better prognosis |
| Link |
NOC:Sensors and Actuators |
Lecture 59 - Biosensors for Electrothermal sensor |
| Link |
NOC:Sensors and Actuators |
Lecture 60 - MEMS based sensor for catheter contact force measurement |
| Link |
NOC:Sensors and Actuators |
Lecture 61 - Microfluidics based Drug Screening |
| Link |
NOC:Sensors and Actuators |
Lecture 62 - Basic aspects of 3D Printing |
| Link |
NOC:Sensors and Actuators |
Lecture 63 - 3D Printing Materials and Demonstration of Remote 3D Printing |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 1 - The human brain |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 2 - Introduction to Neural Networks |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 3 - Models of a neuron |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 4 - Feedback and network architectures |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 5 - Knowledge representation |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 6 - Prior information and invariances |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 7 - Learning processes |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 8 - Perceptron - 1 |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 9 - Perceptron - 2 |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 10 - Batch perceptron algorithm |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 11 - Perceptron and Bayes classifier |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 12 - Linear regression - 1 |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 13 - Linear regression - 2 |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 14 - Linear regression - 3 |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 15 - Logistic regression |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 16 - Multi-layer perceptron - 1 |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 17 - Multi-layer perceptron - 2 |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 18 - Back propagation - 1 |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 19 - Back propagation - 2 |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 20 - XOR problem |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 21 - Universal approximation function |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 22 - Complexity Regularization and Cross validation |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 23 - Convolutional Neural Networks (CNN) |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 24 - Cover’s Theorem |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 25 - Multivariate interpolation problem |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 26 - Radial basis functions (RBF) |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 27 - Recursive least squares algorithm |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 28 - Comparison of RBF with MLP |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 29 - Kernel regression using RBFs |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 30 - Kernel Functions |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 31 - Basics of constrained optimization |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 32 - Optimization with equality constraint |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 33 - Optimization with inequality constraint |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 34 - Support Vector Machines (SVM) |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 35 - Optimal hyperplane for linearly separable patterns |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 36 - Quadratic optimization for finding optimal hyperplane |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 37 - Optimal hyperplane for non-linearly separable patterns |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 38 - Inner product kernel and Mercer’s theorem |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 39 - Optimal design of an SVM |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 40 - ε-insensitive loss function |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 41 - XOR problem revisited using SVMs |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 42 - Hilbert Space |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 43 - Reproducing Kernel Hilbert Space |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 44 - Representer Theorem |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 45 - Generalized applicability of the representer theorem |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 46 - Regularization Theory |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 47 - Euler-Lagrange Equation |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 48 - Regularization Networks |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 49 - Generalized RBF networks |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 50 - XOR problem revisited using RBF |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 51 - Structural Risk Minimization |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 52 - Bias-Variance Dilemma |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 53 - Estimation of regularization parameters |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 54 - Basics of L1 regularization |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 55 - Grafting |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 56 - Kernel PCA |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 57 - Hebbian based maximum eigen filter - 1 |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 58 - Hebbian based maximum eigen filter - 2 |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 59 - Hebbian based maximum eigen filter - 3 |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 60 - VC dimension |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 61 - Autoencoders |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 62 - Denoising Autoencoders |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 63 - Demo - Perceptron |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 64 - Demo - Motivation for CNN |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 65 - Back propagation in Convolutional Neural Network |
| Link |
NOC:Neural Networks for Signal Processing-I |
Lecture 66 - Ethics in AI research and coverage summary |
| Link |
NOC:Electronics Equipment Integration and Prototype Building |
Lecture 1 - Introduction to electronics products |
| Link |
NOC:Electronics Equipment Integration and Prototype Building |
Lecture 2 - Examples from real life: Parts to system |
| Link |
NOC:Electronics Equipment Integration and Prototype Building |
Lecture 3 - Common Simulation of flat prismatic parts |
| Link |
NOC:Electronics Equipment Integration and Prototype Building |
Lecture 4 - Common flat parts enclosures |
| Link |
NOC:Electronics Equipment Integration and Prototype Building |
Lecture 5 - Real life parts to scale on a graph |
| Link |
NOC:Electronics Equipment Integration and Prototype Building |
Lecture 6 - Early First steps |
| Link |
NOC:Electronics Equipment Integration and Prototype Building |
Lecture 7 - Top down, outside to internals |
| Link |
NOC:Electronics Equipment Integration and Prototype Building |
Lecture 8 - Using a print and fabrication video |
| Link |
NOC:Electronics Equipment Integration and Prototype Building |
Lecture 9 - Details of displays and keys |
| Link |
NOC:Electronics Equipment Integration and Prototype Building |
Lecture 10 - Improvement on marking and skill |
| Link |
NOC:Electronics Equipment Integration and Prototype Building |
Lecture 11 - Mass production in sheet metal |
| Link |
NOC:Electronics Equipment Integration and Prototype Building |
Lecture 12 - Prototyping of user interfaces for concepts |
| Link |
NOC:Electronics Equipment Integration and Prototype Building |
Lecture 13 - Stacking of equipment to make a system |
| Link |
NOC:Electronics Equipment Integration and Prototype Building |
Lecture 14 - Recapitualising a sub system |
| Link |
NOC:Electronics Equipment Integration and Prototype Building |
Lecture 15 - Off the shelf enclosures and making a user interface |
| Link |
NOC:Electronics Equipment Integration and Prototype Building |
Lecture 16 - Looking around for concepts and integration |
| Link |
NOC:Electronics Equipment Integration and Prototype Building |
Lecture 17 - Representation on paper |
| Link |
NOC:Electronics Equipment Integration and Prototype Building |
Lecture 18 - Example features of surfaces and solids |
| Link |
NOC:Electronics Equipment Integration and Prototype Building |
Lecture 19 - Simple and curved surfaces |
| Link |
NOC:Electronics Equipment Integration and Prototype Building |
Lecture 20 - Describing inclined surfaces |
| Link |
NOC:Electronics Equipment Integration and Prototype Building |
Lecture 21 - Basics of engineering Drawing |
| Link |
NOC:Electronics Equipment Integration and Prototype Building |
Lecture 22 - Introduction to sizing and fits |
| Link |
NOC:Electronics Equipment Integration and Prototype Building |
Lecture 23 - Practical mechanical assemblies |
| Link |
NOC:Electronics Equipment Integration and Prototype Building |
Lecture 24 - Analogous Mechanical - Electronics detailing |
| Link |
NOC:Electronics Equipment Integration and Prototype Building |
Lecture 25 - Solid modelling |
| Link |
NOC:Electronics Equipment Integration and Prototype Building |
Lecture 26 - Importance of dimensioning |
| Link |
NOC:Electronics Equipment Integration and Prototype Building |
Lecture 27 - Ease of editing redesign |
| Link |
NOC:Electronics Equipment Integration and Prototype Building |
Lecture 28 - Dimensioning of electronics components |
| Link |
NOC:Electronics Equipment Integration and Prototype Building |
Lecture 29 - 2D flat representation |
| Link |
NOC:Electronics Equipment Integration and Prototype Building |
Lecture 30 - Electronics to Mechanical interfacing |
| Link |
NOC:Electronics Equipment Integration and Prototype Building |
Lecture 31 - Complexity of 3D assemblies with wiring |
| Link |
NOC:Electronics Equipment Integration and Prototype Building |
Lecture 32 - Illustrative simple design |
| Link |
NOC:Electronics Equipment Integration and Prototype Building |
Lecture 33 - Practical detailing |
| Link |
NOC:Electronics Equipment Integration and Prototype Building |
Lecture 34 - Rendered on screen |
| Link |
NOC:Electronics Equipment Integration and Prototype Building |
Lecture 35 - Fastenings and hardware |
| Link |
NOC:Electronics Equipment Integration and Prototype Building |
Lecture 36 - Fastener representation, deatiling |
| Link |
NOC:Electronics Equipment Integration and Prototype Building |
Lecture 37 - Practical detailing. |
| Link |
NOC:Electronics Equipment Integration and Prototype Building |
Lecture 38 - Recapitulation, context of course |
| Link |
NOC:Electronics Equipment Integration and Prototype Building |
Lecture 39 - Low cost is the key |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 1 - Getting started with NgSpice |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 2 - Refractoring the .cir |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 3 - Sub-circuits |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 4 - gschem and netlist generation |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 5 - Setting up for simulation with Octave |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 6 - Getting started with equation based simulation |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 7 - Resuming a simulation in Octave |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 8 - PV cell model - review |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 9 - PV cell characteristic - review |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 10 - PV cell - symbol and subcircuit |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 11 - Rectifier-capacitor filter - operation review |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 12 - Rectifier-capacitor filter - NgSpice simulation |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 13 - Rectifier-capacitor filter with non-idealities |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 14 - 3 phase Rectifier-capacitor filter |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 15 - Equation based simulation in Octave |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 16 - Passive power factor improvement - review |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 17 - Passive power factor circuit in NgSpice |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 18 - Buck converter - review |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 19 - Buck converter - NgSpice |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 20 - Boost converter - review |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 21 - Boost converter - NgSpice |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 22 - Buck-boost converter - review |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 23 - Buck-boost converter - NgSpice |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 24 - Equation based simulation of converters |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 25 - Forward Converter - review |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 26 - Forward Converter simulation |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 27 - Understanding Core flux reset |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 28 - Core flux reset - simulation |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 29 - Flyback converter - review |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 30 - Flyback converter - simulation |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 31 - Pushpull converter - review |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 32 - Pushpull converter - simulation |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 33 - Half bridge converter - review |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 34 - Half bridge converter - simulation |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 35 - Full bridge converter - review |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 36 - Full bridge converter - simulation |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 37 - Close loop operation |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 38 - Close loop with feed forward control |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 39 - NgSpice simulation of close loop control |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 40 - Battery charging with current control |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 41 - Slope compensation for current control |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 42 - NgSpice simulation of battery charging |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 43 - Single phase PWM for single phase inverter |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 44 - NgSpice simulation of single phase PWM |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 45 - 2-axes theory for 3-phase systems |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 46 - Transformations for 2 and 3 axes systems |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 47 - Maximum power point tracking - NgSpice |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 48 - Space vector PWM - digital |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 49 - Space vector PWM - analog |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 50 - SVPWM analog - NgSpice simulation |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 51 - Induction motor model |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 52 - Induction motor simulation in Octave |
| Link |
NOC:Design and Simulation of Power Conversion using Open Source Tools |
Lecture 53 - V/F control of induction motor - NgSpice |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 1 - Cellular (Microscopic) Structure of the Central Nervous System (CNS) |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 2 - Anatomical (Macroscopic) structure of the CNS |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 3 - Introduction to Cleanroom and IC Fabrication Techniques |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 4 - Introduction to EEG applications for Hearing Loss |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 5 - Electrophysiological Recordings |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 6 - Neocortical Circuits |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 7 - The resting Membrane Potential |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 8 - Applications of MEMS Fabrication Technologies |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 9 - Fundamentals of biopotentials and applications |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 10 - Fundamentals of EEG and applications |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 11 - The Action Potential (1) |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 12 - The Action Potential (2) |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 13 - Axonology, Neuronal Biophysics (1) |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 14 - Axonology, Neuronal Biophysics (2) |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 15 - Experimental Setup for EEG Recording |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 16 - Introduction to Cleanroom Protocols and Demonstration of Gowning Procedure |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 17 - Electromagnetic Stimulation of the Brain (1) |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 18 - Electromagnetic Stimulation of the Brain (2) |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 19 - Introduction to Event Related Potentials |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 20 - Introduction to 3D Printing |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 21 - 3D Printing: Applications and Demonstrations |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 22 - Introduction to Event Related Potentials (2) |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 23 - Different Event Related Potentials (1) |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 24 - Different Event Related Potentials (2) |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 25 - Introduction to Silicone Wafer Processing Techniques |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 26 - Basics of Silicone Dioxide: Oxidation, Characterization and Applications |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 27 - Inverse Problem, EEG source localization (1) |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 28 - Inverse Problem, EEG source localization (2) |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 29 - Introduction to Brain Computer Interfaces |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 30 - Signal Conditioning Circuit for EEG Bioamplifiers |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 31 - Basics of BCI Experimentation: Introdcution BCI Applications |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 32 - Different Brain Computer Interfaces |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 33 - Introduction to EEGLAB, ERPLAB and AEP Demonstration (1) |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 34 - Introduction to EEGLAB, ERPLAB and AEP Demonstration (2) |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 35 - Introduction to Photolithography |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 36 - Basics of BCI Experimentation: Stimuli Generation and Insertion |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 37 - MMN Demonstration with EEGLAB and ERPLAB (1) |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 38 - MMN Demonstration with EEGLAB and ERPLAB (2) |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 39 - Introduction to Photolithography (2) |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 40 - Basics of Instrumentation Amplifier and Online Simulation |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 41 - Basics of BCI Experimentation: Experimental Setup and Biopotential Acquisition |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 42 - P300 Demonstration with EEGLAB/ERPLAB (1) |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 43 - P300 Demonstration with EEGLAB/ERPLAB (2) |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 44 - Wavelet Analysis with VEP (1) |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 45 - Details of Lithography, E-beam Lithography and Mask Aligner |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 46 - Basics of BCI Experimentation: Signal Acquisition using MATLAB (EEGLAB) |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 47 - Wavelet Analysis with VEP (2) |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 48 - Demonstration: Resting Membrane Potential |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 49 - Demonstration: Membrane Time Constant (τ) |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 50 - Photoresist (SU-8) and soft lithography |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 51 - Physical Vapour Deposition: Thermal Evaporation |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 52 - Introduction to Epilepsy and Classification |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 53 - Epileptogenisis |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 54 - Demonstration: Membrane Length Constant (λ) |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 55 - Demonstration: Action Potential |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 56 - Demonstration: Voltage Clamp |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 57 - Demonstration: Synaptic Potentials & Current |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 58 - Physical Vapour Deposition: E-beam Evaporation |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 59 - Physical Vapour Deposition: Sputtering |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 60 - Recent Trends: Epilepsy Classification using EEG data |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 61 - Demonstration: Wireless EEG with dry electrodes |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 62 - Basics of EEG, ERP and acquisition |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 63 - Photolithography with example |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 64 - Stress Tissue Analysis using COMSOL Multiphysics |
| Link |
NOC:Introductory Neuroscience and Neuro-Instrumentation |
Lecture 65 - Recent Trends: Microelectrode Arrays and Deep Brain Stimulation |
| Link |
NOC:Information Theory |
Lecture 1 - What is information? |
| Link |
NOC:Information Theory |
Lecture 2 - How to model uncertainty? |
| Link |
NOC:Information Theory |
Lecture 3 - Basic concepts of probability |
| Link |
NOC:Information Theory |
Lecture 4 - Estimates of random variables |
| Link |
NOC:Information Theory |
Lecture 5 - Limit theorems |
| Link |
NOC:Information Theory |
Lecture 6 - Review |
| Link |
NOC:Information Theory |
Lecture 7 - Source model |
| Link |
NOC:Information Theory |
Lecture 8 - Motivating examples |
| Link |
NOC:Information Theory |
Lecture 9 - A compression problem |
| Link |
NOC:Information Theory |
Lecture 10 - Shannon entropy |
| Link |
NOC:Information Theory |
Lecture 11 - Random hash |
| Link |
NOC:Information Theory |
Lecture 12 - Review 2 |
| Link |
NOC:Information Theory |
Lecture 13 - Uncertainty and randomness |
| Link |
NOC:Information Theory |
Lecture 14 - Total variation distance |
| Link |
NOC:Information Theory |
Lecture 15 - Generating almost random bits |
| Link |
NOC:Information Theory |
Lecture 16 - Generating samples from a distribution using uniform randomness |
| Link |
NOC:Information Theory |
Lecture 17 - Typical sets and entropy |
| Link |
NOC:Information Theory |
Lecture 18 - Review 3 |
| Link |
NOC:Information Theory |
Lecture 19 - Hypothesis testing and estimation |
| Link |
NOC:Information Theory |
Lecture 20 - Examples |
| Link |
NOC:Information Theory |
Lecture 21 - The log-likelihood ratio test |
| Link |
NOC:Information Theory |
Lecture 22 - Kullback-Leibler divergence and Stein's lemma |
| Link |
NOC:Information Theory |
Lecture 23 - Properties of KL divergence |
| Link |
NOC:Information Theory |
Lecture 24 - Review 4 |
| Link |
NOC:Information Theory |
Lecture 25 - Information per coin-toss |
| Link |
NOC:Information Theory |
Lecture 26 - Multiple hypothesis testing |
| Link |
NOC:Information Theory |
Lecture 27 - Error analysis of multiple hypothesis testing |
| Link |
NOC:Information Theory |
Lecture 28 - Mutual information |
| Link |
NOC:Information Theory |
Lecture 29 - Fano's inequality |
| Link |
NOC:Information Theory |
Lecture 30 - Measures of information |
| Link |
NOC:Information Theory |
Lecture 31 - Chain rules |
| Link |
NOC:Information Theory |
Lecture 32 - Shape of measures of information |
| Link |
NOC:Information Theory |
Lecture 33 - Data processing inequality |
| Link |
NOC:Information Theory |
Lecture 34 - Midyear Review |
| Link |
NOC:Information Theory |
Lecture 35 - Proof of Fano's inequality |
| Link |
NOC:Information Theory |
Lecture 36 - Variational formulae |
| Link |
NOC:Information Theory |
Lecture 37 - Capacity as information radius |
| Link |
NOC:Information Theory |
Lecture 38 - Proof of Pinsker's inequality |
| Link |
NOC:Information Theory |
Lecture 39 - Continuity of entropy |
| Link |
NOC:Information Theory |
Lecture 40 - Lower bound for compression |
| Link |
NOC:Information Theory |
Lecture 41 - Lower bound for hypothesis testing |
| Link |
NOC:Information Theory |
Lecture 42 - Review 7 |
| Link |
NOC:Information Theory |
Lecture 43 - Lower bound for random number generation |
| Link |
NOC:Information Theory |
Lecture 44 - Strong converse |
| Link |
NOC:Information Theory |
Lecture 45 - Lower bound for minmax statistical estimation |
| Link |
NOC:Information Theory |
Lecture 46 - Variable length source codes |
| Link |
NOC:Information Theory |
Lecture 47 - Review 8 |
| Link |
NOC:Information Theory |
Lecture 48 - Kraft's inequality |
| Link |
NOC:Information Theory |
Lecture 49 - Shannon code |
| Link |
NOC:Information Theory |
Lecture 50 - Huffman code |
| Link |
NOC:Information Theory |
Lecture 51 - Minmax Redundancy |
| Link |
NOC:Information Theory |
Lecture 52 - Type based universal compression |
| Link |
NOC:Information Theory |
Lecture 53 - Review 9 |
| Link |
NOC:Information Theory |
Lecture 54 - Arithmetic code |
| Link |
NOC:Information Theory |
Lecture 55 - Online probability assignment |
| Link |
NOC:Information Theory |
Lecture 56 - Compression of databases: A scheme |
| Link |
NOC:Information Theory |
Lecture 57 - Compression of databases: A lower bound |
| Link |
NOC:Information Theory |
Lecture 58 - Repetition code |
| Link |
NOC:Information Theory |
Lecture 59 - Channel capacity |
| Link |
NOC:Information Theory |
Lecture 60 - Sphere packing bound for BSC |
| Link |
NOC:Information Theory |
Lecture 61 - Random coding bound for BSC |
| Link |
NOC:Information Theory |
Lecture 62 - Random coding bound for general channel |
| Link |
NOC:Information Theory |
Lecture 63 - Review 11 |
| Link |
NOC:Information Theory |
Lecture 64 - Converse proof for channel coding theorem |
| Link |
NOC:Information Theory |
Lecture 65 - Additive Gaussian Noise channel |
| Link |
NOC:Information Theory |
Lecture 66 - Mutual information and differential entropy |
| Link |
NOC:Information Theory |
Lecture 67 - Channel coding theorem for Gaussan channel |
| Link |
NOC:Information Theory |
Lecture 68 - Parallel channels and water-filling |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 1 - Photonic integrated circuits course introduction |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 2 - Wave optics review |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 3 - Electromagnetic theory review - 1 |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 4 - Electromagnetic theory review - 2 |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 5 - Photonic integrated circuits: an introduction |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 6 - Photonic integrated circuits evolution |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 7 - Photonic integrated circuit components - 1 |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 8 - Photonic integrated circuit components - 2 |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 9 - Dispersion |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 10 - Phase velocity and Group velocity |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 11 - Anisotropic medium and reciprocity |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 12 - Polarisation in anisotropic medium |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 13 - Optical axes |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 14 - Waveguide structure |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 15 - Waveguide modes - 1 |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 16 - Waveguide modes - 2 |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 17 - Field Equation |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 18 - Guided modes in symmetric slab waveguides |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 19 - Waveguide design - Boundary value formulation |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 20 - Waveguide design - BVP solution |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 21 - Waveguide design - Perturbation approach |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 22 - Waveguide design - Effective Index method |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 23 - Coupled mode theory - 1 |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 24 - Coupled mode theory - 2 |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 25 - Two-mode coupling |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 26 - Co and counter propagating mode coupling |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 27 - Phase matching |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 28 - Directional coupler |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 29 - Y-splitter |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 30 - Multi-Mode Interference coupler |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 31 - MZI |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 32 - Micro-Ring Resonators |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 33 - Light-chip coupling |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 34 - End-fire coupling |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 35 - Light Modulator introduction |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 36 - Electro-Optic effect |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 37 - Waveguide modulator |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 38 - Optical transition in semiconductors |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 39 - Transition rates |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 40 - Absorption and gain in semiconductors |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 41 - Semiconductor Light Emitting Diodes |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 42 - Semiconductor Light Emitting Diodes (Continued...) |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 43 - Semiconductor Lasers |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 44 - Semiconductor photodetector |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 45 - Semiconductor photodetector noise |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 46 - Fabrication process - 1 |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 47 - Fabrication process - 2 |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 48 - PIC technology - Building a simple circuit |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 49 - PIC for communication |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 50 - PIC for sensing - 1 |
| Link |
NOC:Photonic Integrated Circuit |
Lecture 51 - PIC for sensing - 2 |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 1 - Introduction and Definition of IoT |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 2 - Location, Applications, and Power |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 3 - Challenges - Part 1 |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 4 - Challenges - Part 2 |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 5 - Challenges - Part 3 |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 6 - Challenges - Part 4 |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 7 - Unique ID |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 8 - Introduction to RFID |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 9 - RFID DEMO |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 10 - RFID Theory - 1 |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 11 - RFID Theory - 2 |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 12 - RFID Theory - 3 |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 13 - Energy harvesting - 1 |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 14 - Energy harvesting - 2 |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 15 - Energy harvesting - 3 |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 16 - Power management systems - 1 |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 17 - Power management systems - 2 |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 18 - Battery life calculation |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 19 - Introduction to System Design for low power |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 20 - LDO - 1 |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 21 - LDO - 2 |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 22 - LDO - 3 |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 23 - Buck converter - 1 |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 24 - Buck converter - 2 |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 25 - Lab experiment |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 26 - Introduction to Sensors and Actuators |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 27 - Sensors |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 28 - Actuators |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 29 - Case study on Sensing and Actuation |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 30 - Introduction to low power software |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 31 - ADC driver design and development |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 32 - Power optimization |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 33 - Introduction to protocols |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 34 - MQTT - 1 |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 35 - MQTT - 2 |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 36 - COAP - 1 |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 37 - COAP - 2 |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 38 - Websockets |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 39 - Introduction to low power wireless - 1 |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 40 - Introduction to low power wireless - 2 |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 41 - Bluetooth low energy (BLE) - 1 |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 42 - Bluetooth low energy (BLE) - 2 |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 43 - IEEE 802.15.4e - 1 |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 44 - IEEE 802.15.4e - 2 |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 45 - IEEE 802.15.4e - 3 |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 46 - Wi-Fi |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 47 - Introduction to Wide area technologies |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 48 - LoRa - 1 |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 49 - LoRa - 2 |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 50 - NBIoT, LTEM1 |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 51 - BLE mesh technology |
| Link |
NOC:Design for Internet of Things (2021) |
Lecture 52 - Course conclusion |
| Link |
NOC:Mathematical Aspects of Biomedical Electronic System Design |
Lecture 1 - Introduction to Signals and Systems |
| Link |
NOC:Mathematical Aspects of Biomedical Electronic System Design |
Lecture 2 - MATLAB Demo on Signal Types and Moving Average System |
| Link |
NOC:Mathematical Aspects of Biomedical Electronic System Design |
Lecture 3 - Microfabrication Basics for Biomedical Systems |
| Link |
NOC:Mathematical Aspects of Biomedical Electronic System Design |
Lecture 4 - Fluid Flow in Body Lumen |
| Link |
NOC:Mathematical Aspects of Biomedical Electronic System Design |
Lecture 5 - Fourier Series |
| Link |
NOC:Mathematical Aspects of Biomedical Electronic System Design |
Lecture 6 - Continuous Time Fourier Transform |
| Link |
NOC:Mathematical Aspects of Biomedical Electronic System Design |
Lecture 7 - Biological Tissues as disordered systems |
| Link |
NOC:Mathematical Aspects of Biomedical Electronic System Design |
Lecture 8 - Introduction to electrical equivalent circuit models for biological systems |
| Link |
NOC:Mathematical Aspects of Biomedical Electronic System Design |
Lecture 9 - Discrete Time Fourier Transform and Sampling |
| Link |
NOC:Mathematical Aspects of Biomedical Electronic System Design |
Lecture 10 - Percolation Theory and applications in biological tissues |
| Link |
NOC:Mathematical Aspects of Biomedical Electronic System Design |
Lecture 11 - Electrical properties of cells and tissues revisited: Examples and Applications |
| Link |
NOC:Mathematical Aspects of Biomedical Electronic System Design |
Lecture 12 - Linear Algebra - I |
| Link |
NOC:Mathematical Aspects of Biomedical Electronic System Design |
Lecture 13 - MATLAB Live Demo on Moving average and signal acquisition |
| Link |
NOC:Mathematical Aspects of Biomedical Electronic System Design |
Lecture 14 - Oxidation and Thickness Characterization |
| Link |
NOC:Mathematical Aspects of Biomedical Electronic System Design |
Lecture 15 - Basics of Photolithography with Process flow examples |
| Link |
NOC:Mathematical Aspects of Biomedical Electronic System Design |
Lecture 16 - Linear Algebra - II |
| Link |
NOC:Mathematical Aspects of Biomedical Electronic System Design |
Lecture 17 - Introduction to Biomedical Optics |
| Link |
NOC:Mathematical Aspects of Biomedical Electronic System Design |
Lecture 18 - Optical Properties of Tissues and Mathematical modelling |
| Link |
NOC:Mathematical Aspects of Biomedical Electronic System Design |
Lecture 19 - System of Linear Equations |
| Link |
NOC:Mathematical Aspects of Biomedical Electronic System Design |
Lecture 20 - Scaling Laws |
| Link |
NOC:Mathematical Aspects of Biomedical Electronic System Design |
Lecture 21 - Thermal Properties of a tissue |
| Link |
NOC:Mathematical Aspects of Biomedical Electronic System Design |
Lecture 22 - Introduction to Probability |
| Link |
NOC:Mathematical Aspects of Biomedical Electronic System Design |
Lecture 23 - Tissue Electrode Interface |
| Link |
NOC:Mathematical Aspects of Biomedical Electronic System Design |
Lecture 24 - Thermal Properties of a tissue and cells |
| Link |
NOC:Mathematical Aspects of Biomedical Electronic System Design |
Lecture 25 - Probability: Random Variables and CDF |
| Link |
NOC:Mathematical Aspects of Biomedical Electronic System Design |
Lecture 26 - Basics of Silicon, Silicon Dioxide for Microfabrication Process |
| Link |
NOC:Mathematical Aspects of Biomedical Electronic System Design |
Lecture 27 - Mechanical Properties of human brain tissues and modelling |
| Link |
NOC:Mathematical Aspects of Biomedical Electronic System Design |
Lecture 28 - Probability: Important measures and generating functions |
| Link |
NOC:Mathematical Aspects of Biomedical Electronic System Design |
Lecture 29 - Near Infrared Spectroscopy and Ultrasound Techniques |
| Link |
NOC:Mathematical Aspects of Biomedical Electronic System Design |
Lecture 30 - Thermal Properties of Tissues and Modelling |
| Link |
NOC:Mathematical Aspects of Biomedical Electronic System Design |
Lecture 31 - Multisim Simulations for Biomedical Signal Conditioning Circuit |
| Link |
NOC:Mathematical Aspects of Biomedical Electronic System Design |
Lecture 32 - Cleanroom Entry Demonstration |
| Link |
NOC:Mathematical Aspects of Biomedical Electronic System Design |
Lecture 33 - Spin Coating Demonstration |
| Link |
NOC:Mathematical Aspects of Biomedical Electronic System Design |
Lecture 34 - Common Random Variables |
| Link |
NOC:Mathematical Aspects of Biomedical Electronic System Design |
Lecture 35 - Introduction to signal Conditioning circuits for biomedical devices |
| Link |
NOC:Mathematical Aspects of Biomedical Electronic System Design |
Lecture 36 - Siganl Conditioning circuits units and design |
| Link |
NOC:Mathematical Aspects of Biomedical Electronic System Design |
Lecture 37 - E Beam Evaporation System Demonstration |
| Link |
NOC:Mathematical Aspects of Biomedical Electronic System Design |
Lecture 38 - Joint and Marginal Probability Distribution |
| Link |
NOC:Mathematical Aspects of Biomedical Electronic System Design |
Lecture 39 - Temprature Sensor Interfacing Analysis |
| Link |
NOC:Mathematical Aspects of Biomedical Electronic System Design |
Lecture 40 - Demo of Temprature data acqusitio system using LabVIEW |
| Link |
NOC:Mathematical Aspects of Biomedical Electronic System Design |
Lecture 41 - Recent Trends in Biomedical Electronic System Design |
| Link |
NOC:Mathematical Aspects of Biomedical Electronic System Design |
Lecture 42 - Aspects of Biomedical Electronics System Design |
| Link |
NOC:Concentration Inequalities |
Lecture 1 - Why study concentration inequalities? |
| Link |
NOC:Concentration Inequalities |
Lecture 2 - Chernoff bound |
| Link |
NOC:Concentration Inequalities |
Lecture 3 - Examples of Chernoff bound for common distributions |
| Link |
NOC:Concentration Inequalities |
Lecture 4 - Hoeffding and Bernstein inequalities |
| Link |
NOC:Concentration Inequalities |
Lecture 5 - Azuma and McDiarmid inequalities |
| Link |
NOC:Concentration Inequalities |
Lecture 6 - Bounding variance using the Efron-Stein inequality |
| Link |
NOC:Concentration Inequalities |
Lecture 7 - The Gaussian-Poincare inequality |
| Link |
NOC:Concentration Inequalities |
Lecture 8 - Tail bounds using the Efron-Stein inequality |
| Link |
NOC:Concentration Inequalities |
Lecture 9 - Herbst's argument and the entropy method |
| Link |
NOC:Concentration Inequalities |
Lecture 10 - Log-Sobolev inequalities |
| Link |
NOC:Concentration Inequalities |
Lecture 11 - Binary and Gaussian Log-Sobolev inequalities and concentration |
| Link |
NOC:Concentration Inequalities |
Lecture 12 - Variational formulae forKullback-Leibler and Bregman Divergence |
| Link |
NOC:Concentration Inequalities |
Lecture 13 - A modified log-Sobolev inequality and concentration |
| Link |
NOC:Concentration Inequalities |
Lecture 14 - Introduction to the transportation method for showing concentration bounds |
| Link |
NOC:Concentration Inequalities |
Lecture 15 - Transportation lemma and a proof of McDiarmid's inequality using the transportation method |
| Link |
NOC:Concentration Inequalities |
Lecture 16 - Concentration bounds for functions beyond bounded difference using transportation method |
| Link |
NOC:Concentration Inequalities |
Lecture 17 - Marton's conditional transportation cost inequality |
| Link |
NOC:Concentration Inequalities |
Lecture 18 - Isoperimetry and concentration of measure |
| Link |
NOC:Concentration Inequalities |
Lecture 19 - Isoperimetry and bounded difference |
| Link |
NOC:Concentration Inequalities |
Lecture 20 - Equivalence of Stam's inequality and log Sobolev inequality |
| Link |
NOC:Concentration Inequalities |
Lecture 21 - An information theoretic proof of log Sobolev inequality |
| Link |
NOC:Concentration Inequalities |
Lecture 22 - Hypercontractivity and strong data processing inequality for Rényi divergence |
| Link |
NOC:Concentration Inequalities |
Lecture 23 - An information theoretic characterization of hypercontractivity |
| Link |
NOC:Concentration Inequalities |
Lecture 24 - Equivalence of Gaussian hypercontractivity and Gaussian log Sobolev inequality |
| Link |
NOC:Concentration Inequalities |
Lecture 25 - Uniform deviation bounds for random walks and the law of the iterated logarithm |
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NOC:Concentration Inequalities |
Lecture 26 - Self normalized concentration inequalities and application to online regression |
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NOC:Real-Time Digital Signal Processing |
Lecture 1 - Introduction |
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NOC:Real-Time Digital Signal Processing |
Lecture 2 - Basics of Signal Processing |
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NOC:Real-Time Digital Signal Processing |
Lecture 3 - Lab - CCS |
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NOC:Real-Time Digital Signal Processing |
Lecture 4 - Number System |
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NOC:Real-Time Digital Signal Processing |
Lecture 5 - Architecture - 1 |
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NOC:Real-Time Digital Signal Processing |
Lecture 6 - Architecture - 2 |
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NOC:Real-Time Digital Signal Processing |
Lecture 7 - Real-time Constraints |
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NOC:Real-Time Digital Signal Processing |
Lecture 8 - FIR - Filters |
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NOC:Real-Time Digital Signal Processing |
Lecture 9 - Pipelining and Parallel Processing for Low Power Applications - I |
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NOC:Real-Time Digital Signal Processing |
Lecture 10 - Pipelining and Parallel Processing for Low Power Applications - II |
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NOC:Real-Time Digital Signal Processing |
Lecture 11 - Lab: Sine Generation |
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NOC:Real-Time Digital Signal Processing |
Lecture 12 - IIR Filters - 1 |
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NOC:Real-Time Digital Signal Processing |
Lecture 13 - IIR Filters - 2 |
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NOC:Real-Time Digital Signal Processing |
Lecture 14 - Lab: Sine Generatioon, FIR and IIR |
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NOC:Real-Time Digital Signal Processing |
Lecture 15 - Lab 3 IIR Filter as Resonator |
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NOC:Real-Time Digital Signal Processing |
Lecture 16 - Lab 4 Use of FDA tool box to generate co-efficients |
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NOC:Real-Time Digital Signal Processing |
Lecture 17 - Lab: Real-Time Audio Output through Sine Generation |
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NOC:Real-Time Digital Signal Processing |
Lecture 18 - IIR Filters 4 |
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NOC:Real-Time Digital Signal Processing |
Lecture 19 - Lab: FIR Filter in generation of music |
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NOC:Real-Time Digital Signal Processing |
Lecture 20 - Lab: Real-Time Audio Output through FIR Filter |
| Link |
NOC:Real-Time Digital Signal Processing |
Lecture 21 - DFT, DTFT, twiddle factors, properties, circular convolution and examples |
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NOC:Real-Time Digital Signal Processing |
Lecture 22 - Complexity of Filtering and the FFT |
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NOC:Real-Time Digital Signal Processing |
Lecture 23 - Lab: Filtering Using FFT |
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NOC:Real-Time Digital Signal Processing |
Lecture 24 - Lab: FFT in CCS |
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NOC:Real-Time Digital Signal Processing |
Lecture 25 - FFT - 1 |
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NOC:Real-Time Digital Signal Processing |
Lecture 26 - FFT - 2 |
| Link |
NOC:Real-Time Digital Signal Processing |
Lecture 27 - FFT - 3 |
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NOC:Real-Time Digital Signal Processing |
Lecture 28 - Overlap - Add |
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NOC:Real-Time Digital Signal Processing |
Lecture 29 - Overlap Save Method |
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NOC:Real-Time Digital Signal Processing |
Lecture 30 - Lab: Overlap Add and Save Method using MATLAB |
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NOC:Real-Time Digital Signal Processing |
Lecture 31 - Correlation |
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NOC:Real-Time Digital Signal Processing |
Lecture 32 - Lab: Different ways of implementing FFT in CCS |
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NOC:Real-Time Digital Signal Processing |
Lecture 33 - Adaptive Filter |
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NOC:Real-Time Digital Signal Processing |
Lecture 34 - Lab: LMS Algorith in MATLAB |
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NOC:Real-Time Digital Signal Processing |
Lecture 35 - LMS Algorithm |
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NOC:Real-Time Digital Signal Processing |
Lecture 36 - Lab: Error surface and error contour |
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NOC:Real-Time Digital Signal Processing |
Lecture 37 - Adaptive Filter Applications |
| Link |
NOC:Real-Time Digital Signal Processing |
Lecture 38 - Lab: Application of adaptive filter in MATLAB |
| Link |
NOC:Real-Time Digital Signal Processing |
Lecture 39 - Adaptive Echo Cancellation |
| Link |
NOC:Real-Time Digital Signal Processing |
Lecture 40 - Lab: Application of adaptive filter in CCS, Echo, scrambling and graphic equilizer in MATLAB |
| Link |
NOC:Real-Time Digital Signal Processing |
Lecture 41 - Graphic Equalizer |
| Link |
NOC:Real-Time Digital Signal Processing |
Lecture 42 - Lab: Adaptive filters (MATLAB) |
| Link |
NOC:Real-Time Digital Signal Processing |
Lecture 43 - Speech Coding - I |
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NOC:Real-Time Digital Signal Processing |
Lecture 44 - Speech Coding - II |
| Link |
NOC:Real-Time Digital Signal Processing |
Lecture 45 - Speech Coding - III |
| Link |
NOC:Real-Time Digital Signal Processing |
Lecture 46 - Lab: LPC for speech synthesis |
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NOC:Real-Time Digital Signal Processing |
Lecture 47 - Discrete Cosine Transform - 1 |
| Link |
NOC:Real-Time Digital Signal Processing |
Lecture 48 - Discrete Cosine Transform - 2 |
| Link |
NOC:Real-Time Digital Signal Processing |
Lecture 49 - Discrete Cosine Transform - 3 |
| Link |
NOC:Real-Time Digital Signal Processing |
Lecture 50 - Discrete Cosine Transform - 4 |
| Link |
NOC:Real-Time Digital Signal Processing |
Lecture 51 - Lab: Adaptive filters (CCS) - 1 |
| Link |
NOC:Real-Time Digital Signal Processing |
Lecture 52 - Lab: Adaptive filters (CCS) - 2 |
| Link |
NOC:Real-Time Digital Signal Processing |
Lecture 53 - Lab: Discrete Cosine Transformation |
| Link |
NOC:Real-Time Digital Signal Processing |
Lecture 54 - Lab: Echogeneration |
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NOC:Real-Time Digital Signal Processing |
Lecture 55 - Lab: Using JiDSP |
| Link |
NOC:Real-Time Digital Signal Processing |
Lecture 56 - Summary |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 1 - Introduction to Biomedical Research |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 2 - Fabricated Biosensors and Systems |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 3 - Lab 1 - Introduction to the Fabrication lab |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 4 - Lab 2 - Cleanroom and Gowning Protocol |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 5 - Developed Systems at a glance |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 6 - Silicon and Silicon Dioxide |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 7 - Piranha Cleaning of Silicon Wafer |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 8 - Polyimide Coating on Silicon Wafer |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 9 - Thermal Oxidation of Silicon and Thickness measurement |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 10 - Fundamental of Physical Vapour Deposition |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 11 - Lab 3 - Lithography: Demonstration |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 12 - Sputtering |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 13 - Basics of Photolithography |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 14 - Lab 4 - E-Beam Evaporation: Demo |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 15 - Photolithography - II |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 16 - Photolithography - III |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 17 - Lab 5 - E-Beam Evaporation: Demo - II |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 18 - Lab 6 - Liftoff Demonstration |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 19 - Lithography Optics - I |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 20 - Soft Lithography - I |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 21 - Soft Lithography - II |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 22 - Lab 7 - Sputtering Demonstration - I |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 23 - Lab 8 - Sputtering Demonstration - II |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 24 - Thin Film Deposition: CVD - I |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 25 - Thin Film Deposition: CVD - II |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 26 - Lithography Optics - II |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 27 - Role of Fabrication in Neural Engineering |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 28 - Micromachining |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 29 - Overview of Experimental Neurophysiology |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 30 - Fabrication of Neural Implants |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 31 - Introduction to Packaging for Neural Systems |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 32 - Lab 9 - 3D Printing for neural devices |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 33 - Introduction to Biopotentials |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 34 - EEG: Introduction, Demonstration and Applications |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 35 - Neural Implants: Fabrication and Characterization |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 36 - Design of Wireless Biphasic Pulse Generator |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 37 - Basics of EEG/ERP Experimental Desing |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 38 - Micromachining and Etching |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 39 - Epileptic Seizure Detection and Classification |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 40 - Newborn Hearing Screening - I |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 41 - Newborn Hearing Screening - II |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 42 - Applications of EEG/ERP Experimental Design |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 43 - Flexible MEA for Electrocorticography Signal Acquisition |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 44 - Flexible biodegradable MEAs |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 45 - Microneedle Electrode Array |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 46 - Neurosurgery-based MEA Implantation - I |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 47 - Neurosurgery-based MEA Implantation - II |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 48 - Neurosurgery-based MEA Implantation - III |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 49 - Neurosurgery-based MEA Implantation - IV |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 50 - Deep Brain Stimulation/Recording for Parkinson's - I |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 51 - Deep Brain Stimulation/Recording for Parkinson's - II |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 52 - Computational Neuroscience Fundamentals |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 53 - Mathematical Analysis in Neural Science |
| Link |
NOC:Advanced Neural Science for Engineers |
Lecture 54 - Neuroanatomy for Neural Engineering |
| Link |
NOC:Design of Electric Motors |
Lecture 1 - History Prospect of Electrical Machines |
| Link |
NOC:Design of Electric Motors |
Lecture 2 - Electric Fields |
| Link |
NOC:Design of Electric Motors |
Lecture 3 - Magnetic Fields - 1 |
| Link |
NOC:Design of Electric Motors |
Lecture 4 - Magnetic Fields - 2 |
| Link |
NOC:Design of Electric Motors |
Lecture 5 - Electric and Magnetic Circuits Interface |
| Link |
NOC:Design of Electric Motors |
Lecture 6 - Magnetic Materials and Concepts of BH Curves |
| Link |
NOC:Design of Electric Motors |
Lecture 7 - Analysis of Magnetic Circuits With and Without Air Gaps |
| Link |
NOC:Design of Electric Motors |
Lecture 8 - Example Problems of Magnetic Circuits |
| Link |
NOC:Design of Electric Motors |
Lecture 9 - Magnetic Circuits with Multiple Windings and Permanent Magnets |
| Link |
NOC:Design of Electric Motors |
Lecture 10 - Force Equations in Electromechanical Systems - 1 |
| Link |
NOC:Design of Electric Motors |
Lecture 11 - Force Equations in Electromechanical Systems - 2 |
| Link |
NOC:Design of Electric Motors |
Lecture 12 - Design of Electromagnetic Systems |
| Link |
NOC:Design of Electric Motors |
Lecture 13 - Realization of Electrical Machines - 1 |
| Link |
NOC:Design of Electric Motors |
Lecture 14 - Realization of Electrical Machines - 2 |
| Link |
NOC:Design of Electric Motors |
Lecture 15 - Magnetic Fields in DC Machines - 1 |
| Link |
NOC:Design of Electric Motors |
Lecture 16 - Magnetic Fields in AC Machines - 1 |
| Link |
NOC:Design of Electric Motors |
Lecture 17 - Magnetic Fields in AC Machines - 2 |
| Link |
NOC:Design of Electric Motors |
Lecture 18 - Magnetic Fields in AC Machines - 3 |
| Link |
NOC:Design of Electric Motors |
Lecture 19 - MMFDistribution ofAC Machines |
| Link |
NOC:Design of Electric Motors |
Lecture 20 - Basics of Electrical Machine Windings |
| Link |
NOC:Design of Electric Motors |
Lecture 21 - Stator winding design-single layer winding |
| Link |
NOC:Design of Electric Motors |
Lecture 22 - Stator winding design-double layer winding |
| Link |
NOC:Design of Electric Motors |
Lecture 23 - Stator Winding Design-Fractional Slot Double Layer Winding |
| Link |
NOC:Design of Electric Motors |
Lecture 24 - Variable Pole Machine Stator Winding Design (Pole-Phase Modulation) - 1 |
| Link |
NOC:Design of Electric Motors |
Lecture 25 - Variable Pole Machine Stator Winding Design (Pole-Phase Modulation) - 2 |
| Link |
NOC:Design of Electric Motors |
Lecture 26 - Importance of Motor Design and Standards of Electric Motors |
| Link |
NOC:Design of Electric Motors |
Lecture 27 - Electric Machine Sizing Equations-Output Power and Volume (D2L) Product Equation |
| Link |
NOC:Design of Electric Motors |
Lecture 28 - Lab Session on Re-winding of Induction Motor (Example: Double Layer Winding) |
| Link |
NOC:Design of Electric Motors |
Lecture 29 - The Figure of Merits for Electric Motors and Aspect Ratio to Decouple the D2L Product |
| Link |
NOC:Design of Electric Motors |
Lecture 30 - Electric Machine Sizing Equations-Output Power Equation in terms of D3L Product - 1 |
| Link |
NOC:Design of Electric Motors |
Lecture 31 - Electric Machine Sizing Equations-Output Power Equation in terms of D3L Product - 2 |
| Link |
NOC:Design of Electric Motors |
Lecture 32 - Analysis of Copper Function and Output Function w r t the Electric Machine D3L Product Eqn |
| Link |
NOC:Design of Electric Motors |
Lecture 33 - Example Problems on Output Power Equation in terms of D3L Product |
| Link |
NOC:Design of Electric Motors |
Lecture 34 - Electric Machine Sizing Equations-Output Power Equation in terms of D the power 2.5 L Product |
| Link |
NOC:Design of Electric Motors |
Lecture 35 - Design Procedure of an Electric Machine |
| Link |
NOC:Design of Electric Motors |
Lecture 36 - Name Plate Details and Datasheets of Induction Motor |
| Link |
NOC:Design of Electric Motors |
Lecture 37 - Design of Induction Machine- Stator Design - 1 (Stator Core design) |
| Link |
NOC:Design of Electric Motors |
Lecture 38 - Design of Induction Machine- Stator Design - 2 (Stator Winding Design) |
| Link |
NOC:Design of Electric Motors |
Lecture 39 - Design of Induction Machine- Stator Design - 3 (Stator Slot Geometry) |
| Link |
NOC:Design of Electric Motors |
Lecture 40 - Design of Induction Machine- Rotor Design - 1 (Rotor Slots Selection) |
| Link |
NOC:Design of Electric Motors |
Lecture 41 - Design of Induction Machine- Rotor Design - 2 (Rotor MMF and Bar Currents) |
| Link |
NOC:Design of Electric Motors |
Lecture 42 - Design of Induction Machine- Rotor Design - 3 (Rotor Slot Geometry) |
| Link |
NOC:Design of Electric Motors |
Lecture 43 - Design of Induction Machine- Rotor Design - 4 (Skewing of Rotor) |
| Link |
NOC:Design of Electric Motors |
Lecture 44 - Design of Induction Machine- Rotor Design - 4 (Resistance of Rotor Winding) |
| Link |
NOC:Design of Electric Motors |
Lecture 45 - Carter's Coefficient of Electrical Machines |
| Link |
NOC:Design of Electric Motors |
Lecture 46 - Effective Length Equations of the Machine Core with Different Stator and Rotor Lengths |
| Link |
NOC:Design of Electric Motors |
Lecture 47 - Stator MMF and Magnetizing Current Equations of Induction Machine |
| Link |
NOC:Design of Electric Motors |
Lecture 48 - Magnetizing Inductance of Induction Machine |
| Link |
NOC:Design of Electric Motors |
Lecture 49 - Stator and Rotor Leakage Inductances of Induction Machine |
| Link |
NOC:Design of Electric Motors |
Lecture 50 - Equivalent Circuit Parameters of Induction Machine |
| Link |
NOC:Design of Electric Motors |
Lecture 51 - Loss Calculation of Induction Machine - 1 |
| Link |
NOC:Design of Electric Motors |
Lecture 52 - Loss Calculation of Induction Machine - 2 and Performance Parameters of Induction Motor |
| Link |
NOC:Design of Electric Motors |
Lecture 53 - Switched Reluctance Machine Sizing Equations-Output Power and Volume (D2L) Product Equation |
| Link |
NOC:Design of Electric Motors |
Lecture 54 - The Figure of Merits for SRM and Example Problem on Output Power Equation i t f D2L Product |
| Link |
NOC:Design of Electric Motors |
Lecture 55 - Design of Switched Reluctance Machine: Stator Design - 1 |
| Link |
NOC:Design of Electric Motors |
Lecture 56 - Design of Switched Reluctance Machine: Stator Design - 2 and Rotor Design |
| Link |
NOC:Design of Electric Motors |
Lecture 57 - Procedure for Calculation of SRM Inductance: Aligned Inductance - 1 |
| Link |
NOC:Design of Electric Motors |
Lecture 58 - Calculation of SRM Inductance: Aligned Inductance - 2 |
| Link |
NOC:Design of Electric Motors |
Lecture 59 - Efficiency and Loss Calculation of SRM |
| Link |
NOC:Design of Electric Motors |
Lecture 60 - Importance of Thermal Design and Thermal Limits for Electrical Machines |
| Link |
NOC:Design of Electric Motors |
Lecture 61 - Electric and Thermal Circuits Interface |
| Link |
NOC:Design of Electric Motors |
Lecture 62 - Heat Transfer Methods and Basic Equations for Thermal Resistance |
| Link |
NOC:Design of Electric Motors |
Lecture 63 - Heat Flow in Electrical Machines |
| Link |
NOC:Design of Electric Motors |
Lecture 64 - Cooling Methods and Standards for Electrical Machines |
| Link |
NOC:Design of Electric Motors |
Lecture 65 - Basics of Thermal Equivalent Circuits |
| Link |
NOC:Design of Electric Motors |
Lecture 66 - Thermal Equivalent Circuit - 1 |
| Link |
NOC:Design of Electric Motors |
Lecture 67 - Thermal Equivalent Circuit - 2 |