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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 1 - Introduction |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 2 - The Haar Wavelet |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 3 - The Haar Multiresolution Analysis |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 4 - Wavelets And Multirate Digital Signal Processing |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 5 - Equivalence - Functions And Sequences |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 6 - The Haar Filter Bank |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 7 - Haar Filter Bank Analysis And Synthesis |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 8 - Relating psi, phi and the Filters |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 9 - Iterating the filter bank from Psi, Phi |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 10 - Z-Domain Analysis Of Multirate Filter Bank |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 11 - Two Channel Filter Bank |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 12 - Perfect Reconstruction - Conjugate Quadrature |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 13 - Conjugate Quadrature Filters - Daubechies Family of MRA |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 14 - Daubechies' Filter Banks - Conjugate Quadrature Filters |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 15 - Time And Frequency Joint Perspective |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 16 - Ideal Time Frequency Behaviour |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 17 - The Uncertainty Principle |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 18 - Time Bandwidth Product Uncertainty |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 19 - Evaluating and Bounding squareroot t.squareroot omega |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 20 - The Time Frequency Plane & its Tilings |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 21 - Short time Fourier Transform & Wavelet Transform in General |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 22 - Reconstruction & Admissibility |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 23 - Admissibility in Detail Discretization of Scale |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 24 - Logarithmic Scale Discretization, Dyadic Discretization |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 25 - The Theorem of (DYADIC) Multiresolution Analysis |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 26 - Proof of the Theorem of (DYADIC) Multiresolution Analysis |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 27 - Introducing Variants of The Multiresolution Analysis Concept |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 28 - JPEG 2000 5/3 FilterBank & Spline MRA |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 29 - Orthogonal Multiresolution Analysis with Splines |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 30 - Building Piecewise Linear Scaling Function, Wavelet |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 31 - The Wave Packet Transform |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 32 - Nobel Identities & The Haar Wave Packet Transform |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 33 - The Lattice Structure for Orthogonal Filter Banks |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 34 - Constructing the Lattice & its Variants |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 35 - The Lifting Structure & Polyphase Matrices |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 36 - The Polyphase Approach - The Modulation Approach |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 37 - Modulation Analysis and The 3-Band Filter Bank, Applications |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 38 - The Applications *Data Mining, *Face Recognition |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 39 - Proof that a non-zero function can not be both time and band-limited |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 40 - M-Band Filter Banks and Looking Ahead |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 41 - Tutorial -Session 1 |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 42 - Student's Presentation |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 43 - Tutorial on Uncertainty Product |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 44 - Tutorial on Two band Filter Bank |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 45 - Tutorial -Frequency Domain Analysis of Two band Filter Bank |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 46 - Zoom in and Zoom out using Wavelet Transform |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 47 - More Thoughts on Wavelets : Zooming In |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 48 - Towards selecting Wavelets through vanishing moments |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 49 - In Search of Scaling Coefficients |
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Adv. Digital Signal Processing - Multirate and wavelets |
Lecture 50 - Wavelet Applications |
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Advanced Optical Communication |
Lecture 1 - Introduction |
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Advanced Optical Communication |
Lecture 2 - Basics of Light |
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Advanced Optical Communication |
Lecture 3 - Ray Model - I |
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Advanced Optical Communication |
Lecture 4 - Ray Model - II |
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Advanced Optical Communication |
Lecture 5 - Wave Model - I |
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Advanced Optical Communication |
Lecture 6 - Wave Model - II |
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Advanced Optical Communication |
Lecture 7 - Wave Model - III |
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Advanced Optical Communication |
Lecture 8 - Signal Distortion - I |
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Advanced Optical Communication |
Lecture 9 - Signal Distortion - II |
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Advanced Optical Communication |
Lecture 10 - Signal Distortion - III |
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Advanced Optical Communication |
Lecture 11 - Practical issues in Implementation of Fiber link |
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Advanced Optical Communication |
Lecture 12 - Optical Sources |
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Advanced Optical Communication |
Lecture 13 - Light Emitting Diodes - I |
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Advanced Optical Communication |
Lecture 14 - Light Emitting Diodes - II |
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Advanced Optical Communication |
Lecture 15 - Laser - I |
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Advanced Optical Communication |
Lecture 16 - Laser - II |
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Advanced Optical Communication |
Lecture 17 - Laser - III |
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Advanced Optical Communication |
Lecture 18 - Laser - IV |
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Advanced Optical Communication |
Lecture 19 - Laser - V + Photon Detector |
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Advanced Optical Communication |
Lecture 20 - Photo Diodes and Detector Noise |
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Advanced Optical Communication |
Lecture 21 - Photo Detector |
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Advanced Optical Communication |
Lecture 22 - Optical Receivers - I |
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Advanced Optical Communication |
Lecture 23 - Optical Receivers - II |
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Advanced Optical Communication |
Lecture 24 - Receiver Sensitivity Degradation |
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Advanced Optical Communication |
Lecture 25 - Fiber Optic Link Design |
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Advanced Optical Communication |
Lecture 26 - Wavelength Division Multiplexed Systems |
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Advanced Optical Communication |
Lecture 27 - EDFA |
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Advanced Optical Communication |
Lecture 28 - Integrated Optics - I |
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Advanced Optical Communication |
Lecture 29 - Integrated Optics - II |
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Advanced Optical Communication |
Lecture 30 - Tutorials - I |
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Advanced Optical Communication |
Lecture 31 - Tutorials - II |
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Advanced Optical Communication |
Lecture 32 - Introduction to Non-Linear Fiber Optics |
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Advanced Optical Communication |
Lecture 33 - Non-linear Schrodinger Equation |
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Advanced Optical Communication |
Lecture 34 - Group Velocity Dispersion (GVD) |
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Advanced Optical Communication |
Lecture 35 - Self Phase Modulation (SPM) |
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Advanced Optical Communication |
Lecture 36 - Solitonic Communication |
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Advanced Optical Communication |
Lecture 37 - Raman Amplifier |
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Advanced Optical Communication |
Lecture 38 - Cross Phase Modulation and four wave mixing |
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Advanced Optical Communication |
Lecture 39 - Laboratory Experiments - I |
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Advanced Optical Communication |
Lecture 40 - Laboratory Experiments - II |
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Advanced Optical Communication |
Lecture 41 - Laboratory Experiments - III |
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Advanced VLSI Design |
Lecture 1 - Historical Perspective and Future Trends in CMOS VLSI Circuit and System Design - Part I |
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Advanced VLSI Design |
Lecture 2 - Historical Perspective and Future Trends in CMOS VLSI Circuit and System Design - Part II |
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Advanced VLSI Design |
Lecture 3 - Logical Effort - A way of Designing Fast CMOS Circuits - Part I |
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Advanced VLSI Design |
Lecture 4 - Logical Effort - A way of Designing Fast CMOS Circuits - Part II |
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Advanced VLSI Design |
Lecture 5 - Logical Effort - A way of Designing Fast CMOS Circuits - Part III |
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Advanced VLSI Design |
Lecture 6 - Power Estimation and Control in CMOS VLSI circuits - Part I |
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Advanced VLSI Design |
Lecture 7 - Power Estimation and Control in CMOS VLSI circuits - Part II |
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Advanced VLSI Design |
Lecture 8 - Low Power Design Techniques - Part I |
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Advanced VLSI Design |
Lecture 9 - Low Power Design Techniques - Part II |
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Advanced VLSI Design |
Lecture 10 - Arithmetic Implementation Strategies for VLSI - Part I |
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Advanced VLSI Design |
Lecture 11 - Arithmetic Implementation Strategies for VLSI - Part II |
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Advanced VLSI Design |
Lecture 12 - Arithmetic Implementation Strategies for VLSI - Part III |
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Advanced VLSI Design |
Lecture 13 - Arithmetic Implementation Strategies for VLSI - Part IV |
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Advanced VLSI Design |
Lecture 14 - Interconnect aware design: Impact of scaling, buffer insertion and inductive peaking |
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Advanced VLSI Design |
Lecture 15 - Interconnect aware design: Low swing and Current mode signaling |
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Advanced VLSI Design |
Lecture 16 - Interconnect aware design: capacitively coupled interconnects |
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Advanced VLSI Design |
Lecture 17 - Introduction to Hardware Description Languages |
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Advanced VLSI Design |
Lecture 18 - Managing concurrency and time in Hardware Description Languages |
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Advanced VLSI Design |
Lecture 19 - Introduction to VHDL |
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Advanced VLSI Design |
Lecture 20 - Basic Components in VHDL |
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Advanced VLSI Design |
Lecture 21 - Structural Description in VHDL |
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Advanced VLSI Design |
Lecture 22 - Behavioral Description in VHDL |
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Advanced VLSI Design |
Lecture 23 - Introduction to Verilog |
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Advanced VLSI Design |
Lecture 24 - FSM + datapath (GCD example) |
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Advanced VLSI Design |
Lecture 25 - FSM + datapath (Continued...) |
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Advanced VLSI Design |
Lecture 26 - Single Cycle MMIPS |
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Advanced VLSI Design |
Lecture 27 - Multicycle MMIPS |
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Advanced VLSI Design |
Lecture 28 - Multicycle MMIPS FSM |
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Advanced VLSI Design |
Lecture 29 - Brief Overview of Basic VLSI Design Automation Concepts |
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Advanced VLSI Design |
Lecture 30 - Netlist and System Partitioning |
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Advanced VLSI Design |
Lecture 31 - Timing Analysis in the context of Physical Design Automation |
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Advanced VLSI Design |
Lecture 32 - Placement algorithm |
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Advanced VLSI Design |
Lecture 33 - Introduction to VLSI Testing |
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Advanced VLSI Design |
Lecture 34 - VLSI Test Basics - I |
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Advanced VLSI Design |
Lecture 35 - VLSI Test Basics - II |
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Advanced VLSI Design |
Lecture 36 - VLSI Testing: Automatic Test Pattern Generation |
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Advanced VLSI Design |
Lecture 37 - VLSI Testing: Design for Test (DFT) |
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Advanced VLSI Design |
Lecture 38 - VLSI Testing: Built-In Self-Test (BIST) |
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Advanced VLSI Design |
Lecture 39 - VLSI Design Verification: An Introduction |
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Advanced VLSI Design |
Lecture 40 - VLSI Design Verification: An Introduction |
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Advanced VLSI Design |
Lecture 41 - VLSI Design Verification: Equivalence/Model Checking |
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Advanced VLSI Design |
Lecture 42 - VLSI Design Verification: Model Checking |
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Broadband Networks: Concepts and Technology |
Lecture 1 - Introduction to Broadband Networks |
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Broadband Networks: Concepts and Technology |
Lecture 2 - Qos in Packet Switching and ATM |
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Broadband Networks: Concepts and Technology |
Lecture 3 - ATM Networks |
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Broadband Networks: Concepts and Technology |
Lecture 4 - Effective Bandwidth - I |
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Broadband Networks: Concepts and Technology |
Lecture 5 - Effective Bandwidth - II |
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Broadband Networks: Concepts and Technology |
Lecture 6 - Traffic Descriptor in ATM |
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Broadband Networks: Concepts and Technology |
Lecture 7 - Calculus for QOS - I |
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Broadband Networks: Concepts and Technology |
Lecture 8 - Calculus For Qos - II |
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Broadband Networks: Concepts and Technology |
Lecture 9 - Packet Scheduling Algorithm Introduction |
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Broadband Networks: Concepts and Technology |
Lecture 10 - Fluid Fair Queueing and Weighted Fair Queueing |
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Broadband Networks: Concepts and Technology |
Lecture 11 - Virtual Time In Scheduling |
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Broadband Networks: Concepts and Technology |
Lecture 12 - Fairness of WFO and SCFO Scheduling Algorithms |
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Broadband Networks: Concepts and Technology |
Lecture 13 - Rate Proportional Servers |
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Broadband Networks: Concepts and Technology |
Lecture 14 - Latency Rate Servers - I |
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Broadband Networks: Concepts and Technology |
Lecture 15 - Latency Rate Servers - II And Delay Bounds |
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Broadband Networks: Concepts and Technology |
Lecture 16 - QOS In Best Effort Internet |
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Broadband Networks: Concepts and Technology |
Lecture 17 - TCP Congestion Control |
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Broadband Networks: Concepts and Technology |
Lecture 18 - Analysis of TCP |
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Broadband Networks: Concepts and Technology |
Lecture 19 - TCP Throughput |
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Broadband Networks: Concepts and Technology |
Lecture 20 - Buffer Management |
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Broadband Networks: Concepts and Technology |
Lecture 21 - IP Addressing Scheme |
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Broadband Networks: Concepts and Technology |
Lecture 22 - IP Addressing Lookup And Packet Classification |
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Broadband Networks: Concepts and Technology |
Lecture 23 - IP Over ATM |
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Broadband Networks: Concepts and Technology |
Lecture 24 - Multiple Label Switching (MPLS) |
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Broadband Networks: Concepts and Technology |
Lecture 25 - MPLS and Traffic Engineering |
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Broadband Networks: Concepts and Technology |
Lecture 26 - Optical Network and MPLS |
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Broadband Networks: Concepts and Technology |
Lecture 27 - Integrated Service Internet (IntServ) and RSVP |
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Broadband Networks: Concepts and Technology |
Lecture 28 - Differentiated Services Internet |
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Broadband Networks: Concepts and Technology |
Lecture 29 - Voice over IP |
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Broadband Networks: Concepts and Technology |
Lecture 30 - RTP |
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Broadband Networks: Concepts and Technology |
Lecture 31 - Metro Ethernet Access Networks |
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Broadband Networks: Concepts and Technology |
Lecture 32 - Metro Ethernet Access Networks |
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Digital Communication |
Lecture 1 - Introduction to Digital Communication |
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Digital Communication |
Lecture 2 - Sampling |
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Digital Communication |
Lecture 3 - Quantization, PCM and Delta Modulation |
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Digital Communication |
Lecture 4 - Probability and Random Processes (Part-1) |
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Digital Communication |
Lecture 5 - Probability and Random Processes (Part-2) |
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Digital Communication |
Lecture 6 - Channels and their Models (Part-1) |
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Digital Communication |
Lecture 7 - Channels and their Models (Part-2) |
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Digital Communication |
Lecture 8 - Information Theory (Part-1) |
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Digital Communication |
Lecture 9 - Information Theory (Part-2) |
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Digital Communication |
Lecture 10 - Bandpass Signal Representation (Part-1) |
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Digital Communication |
Lecture 11 - Bandpass Signal Representation (Part-2) |
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Digital Communication |
Lecture 12 - Digital Modulation Techniques (Part-1) |
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Digital Communication |
Lecture 13 - Digital Modulation Techniques (Part-2) |
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Digital Communication |
Lecture 14 - Digital Modulation Techniques (Part-3) |
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Digital Communication |
Lecture 15 - Digital Modulation Techniques (Part-4) |
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Digital Communication |
Lecture 16 - Digital Modulation Techniques (Part-5) |
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Digital Communication |
Lecture 17 - Digital Modulation Techniques (Part-6) |
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Digital Communication |
Lecture 18 - Digital Modulation Techniques (Part-7) |
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Digital Communication |
Lecture 19 - Digital Modulation Techniques (Part-8) |
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Digital Communication |
Lecture 20 - Digital Modulation Techniques (Part-9) |
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Digital Communication |
Lecture 21 - Digital Modulation Techniques (Part-10) |
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Digital Communication |
Lecture 22 - Probability of Error Calculation |
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Digital Communication |
Lecture 23 - Calculation of Probability of Error |
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Digital Communication |
Lecture 24 - Calculation of Probability of Error |
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Digital Communication |
Lecture 25 - Equalizers |
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Digital Communication |
Lecture 26 - Source Coding (Part-1) |
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Digital Communication |
Lecture 27 - Source Coding (Part-2) |
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Digital Communication |
Lecture 28 - Source Coding (Part-3) |
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Digital Communication |
Lecture 29 - Source Coding (Part-4) |
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Digital Communication |
Lecture 30 - Channel Coding |
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Digital Communication |
Lecture 31 - Fundamentals of OFDM |
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Digital Communication |
Lecture 32 - Conclusion |
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Information Theory and Coding |
Lecture 1 - Introduction to Information Theory and Coding |
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Information Theory and Coding |
Lecture 2 - Definition of Information Measure and Entropy |
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Information Theory and Coding |
Lecture 3 - Extention of An Information Source and Markov Source |
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Information Theory and Coding |
Lecture 4 - Adjoint of An Information Source, Joint and Conditional Information Measure |
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Information Theory and Coding |
Lecture 5 - Properties of Joint and Conditional Information Measures and A Morkov Source |
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Information Theory and Coding |
Lecture 6 - Asymptotic Properties of Entropy and Problem Solving in Entropy |
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Information Theory and Coding |
Lecture 7 - Block Code and its Properties |
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Information Theory and Coding |
Lecture 8 - Instantaneous Code and Its Properties |
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Information Theory and Coding |
Lecture 9 - Kraft-Mcmillan Equality and Compact Codes |
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Information Theory and Coding |
Lecture 10 - Shannon's First Theorem |
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Information Theory and Coding |
Lecture 11 - Coding Strategies and Introduction to Huffman Coding |
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Information Theory and Coding |
Lecture 12 - Huffman Coding and Proof of Its Optamality |
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Information Theory and Coding |
Lecture 13 - Competitive Optamality of The Shannon Code |
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Information Theory and Coding |
Lecture 14 - Non-Binary Huffman Code and Other Codes |
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Information Theory and Coding |
Lecture 15 - Adaptive Huffman Coding - Part-I |
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Information Theory and Coding |
Lecture 16 - Adaptive Huffman Coding - Part-II |
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Information Theory and Coding |
Lecture 17 - Shannon-Fano-Elias Coding and Introduction to Arithmetic Coding |
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Information Theory and Coding |
Lecture 18 - Arithmetic Coding - Part-I |
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Information Theory and Coding |
Lecture 19 - Arithmetic Coding - Part-II |
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Information Theory and Coding |
Lecture 20 - Introdution to Information Channels |
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Information Theory and Coding |
Lecture 21 - Equivocation and Mutual Information |
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Information Theory and Coding |
Lecture 22 - Properties of Different Information Channels |
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Information Theory and Coding |
Lecture 23 - Reduction of Information Channels |
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Information Theory and Coding |
Lecture 24 - Properties of Mutual Information and Introdution to Channel Capacity |
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Information Theory and Coding |
Lecture 25 - Calculation of Channel Capacity for Different Information Channels |
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Information Theory and Coding |
Lecture 26 - Shannon's Second Theorem |
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Information Theory and Coding |
Lecture 27 - Discussion On Error Free Communication Over Noisy Channel |
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Information Theory and Coding |
Lecture 28 - Error Free Communication Over A Binary Symmetric Channel and Introdution to Continous Sources and Channels |
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Information Theory and Coding |
Lecture 29 - Differential Entropy and Evaluation of Mutual Information for Continuous Sources and Channels |
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Information Theory and Coding |
Lecture 30 - Channel Capacity of A BandLimited Continuous Channel |
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Information Theory and Coding |
Lecture 31 - Introduction to Rate-Distortion Theory |
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Information Theory and Coding |
Lecture 32 - Definition and Properties of Rate-Distortion Functions |
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Information Theory and Coding |
Lecture 33 - Calculation of Rate-Distortion Functions |
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Information Theory and Coding |
Lecture 34 - Computational Approach for Calculation of Rate-Distortion Functions |
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Information Theory and Coding |
Lecture 35 - Introdution to Quantization |
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Information Theory and Coding |
Lecture 36 - Lloyd-Max Quantizer |
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Information Theory and Coding |
Lecture 37 - Companded Quantization |
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Information Theory and Coding |
Lecture 38 - Variable Length Coding and Problem Solving in Quantizer Design |
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Information Theory and Coding |
Lecture 39 - Vector Quantization |
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Information Theory and Coding |
Lecture 40 - Transform Coding - Part-I |
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Information Theory and Coding |
Lecture 41 - Transform Coding - Part-II |
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Transmission Lines and EM Waves |
Lecture 1 - Introduction to EM waves and various techniques of communication |
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Transmission Lines and EM Waves |
Lecture 2 - Equations of Voltage and Current on TX line |
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Transmission Lines and EM Waves |
Lecture 3 - Propagation constant, Characteristic impedance and reflection coefficient |
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Transmission Lines and EM Waves |
Lecture 4 - Impedance Transformation |
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Transmission Lines and EM Waves |
Lecture 5 - Loss-less and Low loss Transmission line and VSWR |
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Transmission Lines and EM Waves |
Lecture 6 - Power transfer on TX line |
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Transmission Lines and EM Waves |
Lecture 7 - Smith Chart |
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Transmission Lines and EM Waves |
Lecture 8 - Admittance Smith Chart |
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Transmission Lines and EM Waves |
Lecture 9 - Experimental setup for transmission line measurements |
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Transmission Lines and EM Waves |
Lecture 10 - Applications of transmission lines |
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Transmission Lines and EM Waves |
Lecture 11 - Applications of transmission lines-II |
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Transmission Lines and EM Waves |
Lecture 12 - Impedance Matching |
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Transmission Lines and EM Waves |
Lecture 13 - Lossy Transmission Line |
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Transmission Lines and EM Waves |
Lecture 14 - Problems on Transmission line |
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Transmission Lines and EM Waves |
Lecture 15 - Types of transmission line |
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Transmission Lines and EM Waves |
Lecture 16 - Basics of Vectors |
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Transmission Lines and EM Waves |
Lecture 17 - Vector calculus |
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Transmission Lines and EM Waves |
Lecture 18 - Basic laws of Electromagnetics |
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Transmission Lines and EM Waves |
Lecture 19 - Maxwell\\\'s Equations |
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Transmission Lines and EM Waves |
Lecture 20 - Boundary conditions at Media Interface |
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Transmission Lines and EM Waves |
Lecture 21 - Uniform plane wave |
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Transmission Lines and EM Waves |
Lecture 22 - Propagation of wave |
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Transmission Lines and EM Waves |
Lecture 23 - Wave polarization |
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Transmission Lines and EM Waves |
Lecture 24 - Pioncere\\\'s Sphere |
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Transmission Lines and EM Waves |
Lecture 25 - Wave propagation in conducting medium |
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Transmission Lines and EM Waves |
Lecture 26 - Wave propagation and phase velocity |
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Transmission Lines and EM Waves |
Lecture 27 - Power flow and Poynting vector |
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Transmission Lines and EM Waves |
Lecture 28 - Surface current and power loss in a conductor |
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Transmission Lines and EM Waves |
Lecture 29 - Plane wave in arbitary direction |
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Transmission Lines and EM Waves |
Lecture 30 - Plane wave at dielectric interface |
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Transmission Lines and EM Waves |
Lecture 31 - Reflection and refraction at media interface |
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Transmission Lines and EM Waves |
Lecture 32 - Total internal reflection |
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Transmission Lines and EM Waves |
Lecture 33 - Polarization at media interface |
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Transmission Lines and EM Waves |
Lecture 34 - Reflection from a conducting boundary |
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Transmission Lines and EM Waves |
Lecture 35 - Parallel plane waveguide |
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Transmission Lines and EM Waves |
Lecture 36 - Wave propagation in parallel plane waveguide |
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Transmission Lines and EM Waves |
Lecture 37 - Analysis of waveguide general approach |
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Transmission Lines and EM Waves |
Lecture 38 - Rectangular waveguide |
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Transmission Lines and EM Waves |
Lecture 39 - Modal propagation in rectangular waveguide |
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Transmission Lines and EM Waves |
Lecture 40 - Surface currents on the waveguide walls |
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Transmission Lines and EM Waves |
Lecture 41 - Field visualization and Attenuation in waveguide |
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Transmission Lines and EM Waves |
Lecture 42 - Attenuation in waveguide continued |
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Transmission Lines and EM Waves |
Lecture 43 - Radiation (Antenna) |
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Transmission Lines and EM Waves |
Lecture 44 - Solution for potential function |
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Transmission Lines and EM Waves |
Lecture 45 - Radiation form the Hertz dipole |
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Transmission Lines and EM Waves |
Lecture 46 - Power radiated by hertz dipole |
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Transmission Lines and EM Waves |
Lecture 47 - Thin linear antenna |
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Transmission Lines and EM Waves |
Lecture 48 - Radiation Parameters of antenna |
Link |
Transmission Lines and EM Waves |
Lecture 49 - Receiving antenna |
Link |
Transmission Lines and EM Waves |
Lecture 50 - Monopole and Dipole antenna |
Link |
Transmission Lines and EM Waves |
Lecture 51 - Fourier transform relation between current and radiation pattern |
Link |
Transmission Lines and EM Waves |
Lecture 52 - Antenna arrays |
Link |
Transmission Lines and EM Waves |
Lecture 53 - Uniform Linear array |
Link |
Transmission Lines and EM Waves |
Lecture 54 - Uniform Linear array continued |
Link |
Transmission Lines and EM Waves |
Lecture 55 - Synthesis of array |
Link |
Transmission Lines and EM Waves |
Lecture 56 - Binomial array and general array synthesis |
Link |
Transmission Lines and EM Waves |
Lecture 57 - Problems on uniform plane wave |
Link |
Transmission Lines and EM Waves |
Lecture 58 - Problems on uniform plane wave in a meduim |
Link |
Transmission Lines and EM Waves |
Lecture 59 - Problems on waveguides |
Link |
Transmission Lines and EM Waves |
Lecture 60 - Problems on Antennas and radiation |
Link |
CMOS Analog VLSI Design |
Lecture 1 - Introduction to CMOS Analog VLSI Design |
Link |
CMOS Analog VLSI Design |
Lecture 2 - Introduction to CMOS Analog VLSI Design (Continued...) |
Link |
CMOS Analog VLSI Design |
Lecture 3 - MOS Fundamentals |
Link |
CMOS Analog VLSI Design |
Lecture 4 - MOS Fundamentals (Continued...) |
Link |
CMOS Analog VLSI Design |
Lecture 5 - Basic of MOS Amplifier (Part-1) |
Link |
CMOS Analog VLSI Design |
Lecture 6 - Basic of MOS Amplifier (Part-2) |
Link |
CMOS Analog VLSI Design |
Lecture 7 - Basic of MOS Amplifier (Part-3) |
Link |
CMOS Analog VLSI Design |
Lecture 8 - Cascode Amplifier |
Link |
CMOS Analog VLSI Design |
Lecture 9 - Types of MOSFET Amplifier |
Link |
CMOS Analog VLSI Design |
Lecture 10 - Types of MOSFET Amplifier |
Link |
CMOS Analog VLSI Design |
Lecture 11 - Differential Amplifier |
Link |
CMOS Analog VLSI Design |
Lecture 12 - Differential Amplifier |
Link |
CMOS Analog VLSI Design |
Lecture 13 - Current Sources |
Link |
CMOS Analog VLSI Design |
Lecture 14 - Current Sources |
Link |
CMOS Analog VLSI Design |
Lecture 15 - Current Sources |
Link |
CMOS Analog VLSI Design |
Lecture 16 - Frequency Response of Amplifier |
Link |
CMOS Analog VLSI Design |
Lecture 17 - Basic of CMOS OPAMP |
Link |
CMOS Analog VLSI Design |
Lecture 18 - OPAMP Design Issues |
Link |
CMOS Analog VLSI Design |
Lecture 19 - OPAMP Design |
Link |
CMOS Analog VLSI Design |
Lecture 20 - OPMAP Design |
Link |
CMOS Analog VLSI Design |
Lecture 21 - Operational Transconductance Amplifier |
Link |
CMOS Analog VLSI Design |
Lecture 22 - OTA Operation Transconductance Amplifier and Application |
Link |
CMOS Analog VLSI Design |
Lecture 23 - Fully Differential Amplifier and Noise |
Link |
CMOS Analog VLSI Design |
Lecture 24 - Noise |
Link |
CMOS Analog VLSI Design |
Lecture 25 - Noise (Continued...) |
Link |
CMOS Analog VLSI Design |
Lecture 26 - Layout of Analog Circuit |
Link |
CMOS Analog VLSI Design |
Lecture 27 - Oscillators |
Link |
CMOS Analog VLSI Design |
Lecture 28 - Oscillators (Continued...) |
Link |
CMOS Analog VLSI Design |
Lecture 29 - Oscillators (Continued...) |
Link |
Analog Circuits |
Lecture 1 - Introduction to Analog Circuits - An Overview |
Link |
Analog Circuits |
Lecture 2 - Two Parts of Review of Analog Filter Approximation |
Link |
Analog Circuits |
Lecture 3 - BJT Small Signal Model |
Link |
Analog Circuits |
Lecture 4 - BJT Small Signal Model [Continuation from Lecture 3] |
Link |
Analog Circuits |
Lecture 5 - MOS Circuit Model |
Link |
Analog Circuits |
Lecture 6 - Biasing of Circuits |
Link |
Analog Circuits |
Lecture 7 - Amplifiers |
Link |
Analog Circuits |
Lecture 8 - MOS Amplifiers |
Link |
Analog Circuits |
Lecture 9 - Cascode Amplifier |
Link |
Analog Circuits |
Lecture 10 - Frequency Response of Amplifier |
Link |
Analog Circuits |
Lecture 11 - Frequency Response of Amplifier |
Link |
Analog Circuits |
Lecture 12 - Frequency Response of Amplifier |
Link |
Analog Circuits |
Lecture 13 - Frequency Response of Amplifier |
Link |
Analog Circuits |
Lecture 14 - Differential Amplifier |
Link |
Analog Circuits |
Lecture 15 - Differential Amplifier |
Link |
Analog Circuits |
Lecture 16 - Differential Amplifier |
Link |
Analog Circuits |
Lecture 17 - Feedback Theory |
Link |
Analog Circuits |
Lecture 18 - Feedback Theory |
Link |
Analog Circuits |
Lecture 19 - OPAMP Circuits |
Link |
Analog Circuits |
Lecture 20 - OPAMP Circuits |
Link |
Analog Circuits |
Lecture 21 - Active RC Filters |
Link |
Analog Circuits |
Lecture 22 - Active Filters |
Link |
Analog Circuits |
Lecture 23 - Oscillators |
Link |
Analog Circuits |
Lecture 24 - Oscillators |
Link |
Analog Circuits |
Lecture 25 - DAC/ADC |
Link |
NOC:Microwave Integrated Circuits |
Lecture 1 - Introduction |
Link |
NOC:Microwave Integrated Circuits |
Lecture 2 - Reflection Coefficient, VSWR, Smith Chart |
Link |
NOC:Microwave Integrated Circuits |
Lecture 3 - Reflection Coefficient, VSWR |
Link |
NOC:Microwave Integrated Circuits |
Lecture 4 - Smith Chart |
Link |
NOC:Microwave Integrated Circuits |
Lecture 5 - Application of the Smith Chart |
Link |
NOC:Microwave Integrated Circuits |
Lecture 6 - Microwave Components |
Link |
NOC:Microwave Integrated Circuits |
Lecture 7 - Broadband Impedance Matching |
Link |
NOC:Microwave Integrated Circuits |
Lecture 8 - Multi-section transformer |
Link |
NOC:Microwave Integrated Circuits |
Lecture 9 - Maximally flat (binomial) transformer, Chebyshev transformer |
Link |
NOC:Microwave Integrated Circuits |
Lecture 10 - Non-uniform transmission line (Tapers) |
Link |
NOC:Microwave Integrated Circuits |
Lecture 11 - Scattering Parameters |
Link |
NOC:Microwave Integrated Circuits |
Lecture 12 - Properties of Scattering Parameters |
Link |
NOC:Microwave Integrated Circuits |
Lecture 13 - Properties of Scattering Parameters (Continued...) |
Link |
NOC:Microwave Integrated Circuits |
Lecture 14 - Signal flow graph, ABCD parameters |
Link |
NOC:Microwave Integrated Circuits |
Lecture 15 - 1 and 2 Port passive Components |
Link |
NOC:Microwave Integrated Circuits |
Lecture 16 - 3 Port Microwave Components |
Link |
NOC:Microwave Integrated Circuits |
Lecture 17 - Couplers |
Link |
NOC:Microwave Integrated Circuits |
Lecture 18 - Coupled Line Couplers |
Link |
NOC:Microwave Integrated Circuits |
Lecture 19 - Resonators and narrow band filters |
Link |
NOC:Microwave Integrated Circuits |
Lecture 20 - Narrow-band filters |
Link |
NOC:Microwave Integrated Circuits |
Lecture 21 - Filter design: Image parameter method, Insertion loss method |
Link |
NOC:Microwave Integrated Circuits |
Lecture 22 - Filter synthesis, Kurodas Identity |
Link |
NOC:Microwave Integrated Circuits |
Lecture 23 - Impedance Matching Circuits for Amplifiers |
Link |
NOC:Microwave Integrated Circuits |
Lecture 24 - Microstrip Matching (Continued...), Masons Rule, Power Gain Equations |
Link |
NOC:Microwave Integrated Circuits |
Lecture 25 - Amplifier Gain Stability |
Link |
NOC:Microwave Integrated Circuits |
Lecture 26 - Amplifier Gain Stability (Continued...) |
Link |
NOC:Microwave Integrated Circuits |
Lecture 27 - Gain Circles |
Link |
NOC:Microwave Integrated Circuits |
Lecture 28 - Gain Circles (Continued...) |
Link |
NOC:Microwave Integrated Circuits |
Lecture 29 - Noise |
Link |
NOC:Microwave Integrated Circuits |
Lecture 30 - Noise Figure Circles (Continued...) |
Link |
NOC:Microwave Integrated Circuits |
Lecture 31 - DC Bias |
Link |
NOC:Microwave Integrated Circuits |
Lecture 32 - Amplifier Classes, Frequency Compensation |
Link |
NOC:Microwave Integrated Circuits |
Lecture 33 - Linearity |
Link |
NOC:Microwave Integrated Circuits |
Lecture 34 - Oscillator Design |
Link |
NOC:Foundations of Wavelets and Multirate Digital Signal Processing |
Lecture 1 - Introduction |
Link |
NOC:Foundations of Wavelets and Multirate Digital Signal Processing |
Lecture 2 - Origin of wavelets |
Link |
NOC:Foundations of Wavelets and Multirate Digital Signal Processing |
Lecture 3 - Haar wavelet |
Link |
NOC:Foundations of Wavelets and Multirate Digital Signal Processing |
Lecture 4 - Dyadic wavelet |
Link |
NOC:Foundations of Wavelets and Multirate Digital Signal Processing |
Lecture 5 - Dilates and translates of Haar wavelet |
Link |
NOC:Foundations of Wavelets and Multirate Digital Signal Processing |
Lecture 6 - L2 norm of a function |
Link |
NOC:Foundations of Wavelets and Multirate Digital Signal Processing |
Lecture 7 - Piecewise constant representation of a function |
Link |
NOC:Foundations of Wavelets and Multirate Digital Signal Processing |
Lecture 8 - Ladder of subspaces |
Link |
NOC:Foundations of Wavelets and Multirate Digital Signal Processing |
Lecture 9 - Scaling function of Haar wavelet |
Link |
NOC:Foundations of Wavelets and Multirate Digital Signal Processing |
Lecture 10 - Demonstration: Piecewise constant approximation of functions |
Link |
NOC:Foundations of Wavelets and Multirate Digital Signal Processing |
Lecture 11 - Vector representation of sequences |
Link |
NOC:Foundations of Wavelets and Multirate Digital Signal Processing |
Lecture 12 - Properties of norm |
Link |
NOC:Foundations of Wavelets and Multirate Digital Signal Processing |
Lecture 13 - Parsevals theorem |
Link |
NOC:Foundations of Wavelets and Multirate Digital Signal Processing |
Lecture 14 - Equivalence of functions and sequences |
Link |
NOC:Foundations of Wavelets and Multirate Digital Signal Processing |
Lecture 15 - Angle between Functions and their Decomposition |
Link |
NOC:Foundations of Wavelets and Multirate Digital Signal Processing |
Lecture 16 - Additional Information on Direct-Sum |
Link |
NOC:Foundations of Wavelets and Multirate Digital Signal Processing |
Lecture 17 - Introduction to filter banks |
Link |
NOC:Foundations of Wavelets and Multirate Digital Signal Processing |
Lecture 18 - Haar Analysis filter bank in Z-domain |
Link |
NOC:Foundations of Wavelets and Multirate Digital Signal Processing |
Lecture 19 - Haar Synthesis filter bank in Z-domain |
Link |
NOC:Foundations of Wavelets and Multirate Digital Signal Processing |
Lecture 20 - Moving from Z-domain to frequency domain |
Link |
NOC:Foundations of Wavelets and Multirate Digital Signal Processing |
Lecture 21 - Frequency Response of Haar Analysis Low pass Filter bank |
Link |
NOC:Foundations of Wavelets and Multirate Digital Signal Processing |
Lecture 22 - Frequency Response of Haar Analysis High pass Filter bank |
Link |
NOC:Foundations of Wavelets and Multirate Digital Signal Processing |
Lecture 23 - Ideal Two-band Filter bank |
Link |
NOC:Foundations of Wavelets and Multirate Digital Signal Processing |
Lecture 24 - Disqualification of Ideal Filter bank |
Link |
NOC:Foundations of Wavelets and Multirate Digital Signal Processing |
Lecture 25 - Realizable Two-band Filter bank |
Link |
NOC:Foundations of Wavelets and Multirate Digital Signal Processing |
Lecture 26 - Demonstration: DWT of images |
Link |
NOC:Foundations of Wavelets and Multirate Digital Signal Processing |
Lecture 27 - Relating Fourier transform of scaling function to filter bank |
Link |
NOC:Foundations of Wavelets and Multirate Digital Signal Processing |
Lecture 28 - Fourier transform of scaling function |
Link |
NOC:Foundations of Wavelets and Multirate Digital Signal Processing |
Lecture 29 - Construction of scaling and wavelet functions from filter bank |
Link |
NOC:Foundations of Wavelets and Multirate Digital Signal Processing |
Lecture 30 - Demonstration: Constructing scaling and wavelet functions. |
Link |
NOC:Foundations of Wavelets and Multirate Digital Signal Processing |
Lecture 31 - Conclusive Remarks and Future Prospects |
Link |
RF Integrated Circuits |
Lecture 1 - RF system basic architectures |
Link |
RF Integrated Circuits |
Lecture 2 - Transmission media reflection |
Link |
RF Integrated Circuits |
Lecture 3 - Maximum power transfer |
Link |
RF Integrated Circuits |
Lecture 4 - Parallel RLC tank |
Link |
RF Integrated Circuits |
Lecture 5 - Matching |
Link |
RF Integrated Circuits |
Lecture 6 - Other matching networks |
Link |
RF Integrated Circuits |
Lecture 7 - Resistors capacitors |
Link |
RF Integrated Circuits |
Lecture 8 - Inductors |
Link |
RF Integrated Circuits |
Lecture 9 - Inductors and wires |
Link |
RF Integrated Circuits |
Lecture 10 - Wires |
Link |
RF Integrated Circuits |
Lecture 11 - Transmission lines |
Link |
RF Integrated Circuits |
Lecture 12 - Device review |
Link |
RF Integrated Circuits |
Lecture 13 - MOS capacitances |
Link |
RF Integrated Circuits |
Lecture 14 - Bandwidth estimation constants |
Link |
RF Integrated Circuits |
Lecture 15 - Bandwidth estimation constants (Continued.) |
Link |
RF Integrated Circuits |
Lecture 16 - Bandwidth estimation using short circuit |
Link |
RF Integrated Circuits |
Lecture 17 - Bandwidth groupdelay and peaking |
Link |
RF Integrated Circuits |
Lecture 18 - Shunt series amplifier |
Link |
RF Integrated Circuits |
Lecture 19 - Shunt series amplifier (Continued.) |
Link |
RF Integrated Circuits |
Lecture 20 - Various noise sources |
Link |
RF Integrated Circuits |
Lecture 21 - Noise in a mosfet |
Link |
RF Integrated Circuits |
Lecture 22 - Motivation first cut design |
Link |
RF Integrated Circuits |
Lecture 23 - Motivation first cut design (Continued.) |
Link |
RF Integrated Circuits |
Lecture 24 - Noise other possible topologies |
Link |
RF Integrated Circuits |
Lecture 25 - Multiplier Fundamentals |
Link |
RF Integrated Circuits |
Lecture 26 - Mixer non idealties |
Link |
RF Integrated Circuits |
Lecture 27 - Mixer non idealties (Continued.) |
Link |
RF Integrated Circuits |
Lecture 28 - A tank based oscillators |
Link |
RF Integrated Circuits |
Lecture 29 - Phase noise in oscillators |
Link |
RF Integrated Circuits |
Lecture 30 - Other oscillators topologies |
Link |
RF Integrated Circuits |
Lecture 31 - Phase locked loop basics |
Link |
RF Integrated Circuits |
Lecture 32 - Charge pump |
Link |
RF Integrated Circuits |
Lecture 33 - Pll dynamics integer |
Link |
RF Integrated Circuits |
Lecture 34 - Spurious frequencies fractional and synthesis |
Link |
RF Integrated Circuits |
Lecture 35 - Fractional spurs |
Link |
RF Integrated Circuits |
Lecture 36 - Delta and sigma modulation |
Link |
RF Integrated Circuits |
Lecture 37 - Class abc power amplifiers |
Link |
RF Integrated Circuits |
Lecture 38 - Class bcd power amplifiers |
Link |
RF Integrated Circuits |
Lecture 39 - Class cd pwm amplifiers |
Link |
RF Integrated Circuits |
Lecture 40 - Course summary and conclusion |
Link |
Communication Engineering |
Lecture 1 - Introduction to Communication Engineering |
Link |
Communication Engineering |
Lecture 2 - Communication channel |
Link |
Communication Engineering |
Lecture 3 - Brief Review of Signal and Systems |
Link |
Communication Engineering |
Lecture 4 - The Hilbert Transform |
Link |
Communication Engineering |
Lecture 5 - Analytic Representation of band pass Signals |
Link |
Communication Engineering |
Lecture 6 - Fundamentals of Analog Signal Transmission |
Link |
Communication Engineering |
Lecture 7 - Analog Modulation of Carriers |
Link |
Communication Engineering |
Lecture 8 - Amplitude Modulation |
Link |
Communication Engineering |
Lecture 9 - Amplitude Modulation |
Link |
Communication Engineering |
Lecture 10 - Single Sideband Modulation |
Link |
Communication Engineering |
Lecture 11 - Suppressed Sideband Modulation |
Link |
Communication Engineering |
Lecture 12 - VSB Modulation - Superhet Receiver |
Link |
Communication Engineering |
Lecture 13 - Superhet Receiver etc |
Link |
Communication Engineering |
Lecture 14 - Practical Mixers-Effects of Tonal |
Link |
Communication Engineering |
Lecture 15 - Angle Modulation |
Link |
Communication Engineering |
Lecture 16 - Angle Modulation |
Link |
Communication Engineering |
Lecture 17 - Generation of FM Signals |
Link |
Communication Engineering |
Lecture 18 - FM Generation and Detection |
Link |
Communication Engineering |
Lecture 19 - Demodulation of Angle Modulated Signals |
Link |
Communication Engineering |
Lecture 20 - Demodulation of Angle Modulated Signals |
Link |
Communication Engineering |
Lecture 21 - Demodulation of Angle Modulated Signals |
Link |
Communication Engineering |
Lecture 22 - Feedback Demodulators - phase locked loop |
Link |
Communication Engineering |
Lecture 23 - The Phase Locked Loop |
Link |
Communication Engineering |
Lecture 24 - Frequency Compressive Feedback Demodulator |
Link |
Communication Engineering |
Lecture 25 - FM Receivers |
Link |
Communication Engineering |
Lecture 26 - TV Transmission |
Link |
Communication Engineering |
Lecture 27 - Review of Probability Theory and Random Process |
Link |
Communication Engineering |
Lecture 28 - Review of Probability Theory and Random Variables |
Link |
Communication Engineering |
Lecture 29 - Random Processes |
Link |
Communication Engineering |
Lecture 30 - Random Processes |
Link |
Communication Engineering |
Lecture 31 - Random Processes |
Link |
Communication Engineering |
Lecture 32 - Gaussian Random Processes |
Link |
Communication Engineering |
Lecture 33 - Behaviour of Communication System |
Link |
Communication Engineering |
Lecture 34 - Performance of AM Systems in Noise |
Link |
Communication Engineering |
Lecture 35 - Noise in AM and Angle Modulation Systems |
Link |
Communication Engineering |
Lecture 36 - Noise in Phase and Frequency Modulation systems |
Link |
Communication Engineering |
Lecture 37 - Noise in Angle Modulation |
Link |
Communication Engineering |
Lecture 38 - Pre emphasis - De emphasis |
Link |
Communication Engineering |
Lecture 39 - Pulse Modulation Schemes - PWM and PPM |
Link |
Communication Engineering |
Lecture 40 - Data Modulation |
Link |
Communication Engineering |
Lecture 41 - Pulse Code Modulation |
Link |
Digital Signal Processing |
Lecture 1 - Digital Signal Processing Introduction |
Link |
Digital Signal Processing |
Lecture 2 - Digital Signal Processing Introduction (Continued.) |
Link |
Digital Signal Processing |
Lecture 3 - Digital Systems |
Link |
Digital Signal Processing |
Lecture 4 - Characterization Description, Testing of Digital Systems |
Link |
Digital Signal Processing |
Lecture 5 - LTI Systems Step & Impulse Responses, Convolution |
Link |
Digital Signal Processing |
Lecture 6 - Inverse Systems, Stability, FIR & IIR |
Link |
Digital Signal Processing |
Lecture 7 - FIR & IIR; Recursive & Non Recursive |
Link |
Digital Signal Processing |
Lecture 8 - Discrete Time Fourier Transform |
Link |
Digital Signal Processing |
Lecture 9 - Discrete Fourier Transform (DFT) |
Link |
Digital Signal Processing |
Lecture 10 - DFT (Continued.) |
Link |
Digital Signal Processing |
Lecture 11 - DFT (Continued.) Introduction to Z Transform |
Link |
Digital Signal Processing |
Lecture 12 - Z Transform |
Link |
Digital Signal Processing |
Lecture 13 - Z Transform (Continued.) |
Link |
Digital Signal Processing |
Lecture 14 - Discrete Time Systems in the Frequency Domain |
Link |
Digital Signal Processing |
Lecture 15 - Simple Digital Filters |
Link |
Digital Signal Processing |
Lecture 16 - All Pass Filters, Com.Filters |
Link |
Digital Signal Processing |
Lecture 17 - Linear Phase filters, Complementary Transfer Fn |
Link |
Digital Signal Processing |
Lecture 18 - Compensatory Transfer Functions, (Continued.) |
Link |
Digital Signal Processing |
Lecture 19 - Test for Stability using All Pass Functions |
Link |
Digital Signal Processing |
Lecture 20 - Digital Processing of Continuous Time Signals |
Link |
Digital Signal Processing |
Lecture 21 - Problem Solving Session: FT, DFT, & Z Transforms |
Link |
Digital Signal Processing |
Lecture 22 - Problem Solving Session: FT, DFT, & Z Transforms |
Link |
Digital Signal Processing |
Lecture 23 - Analog Filter Design |
Link |
Digital Signal Processing |
Lecture 24 - Analog Chebyshev LPF Design |
Link |
Digital Signal Processing |
Lecture 25 - Analog Filter Design (Continued.): Transformations |
Link |
Digital Signal Processing |
Lecture 26 - Analog frequency Transformation |
Link |
Digital Signal Processing |
Lecture 27 - Problem Solving Session on Discrete Time System |
Link |
Digital Signal Processing |
Lecture 28 - Digital Filter Structures |
Link |
Digital Signal Processing |
Lecture 29 - IIR Realizations |
Link |
Digital Signal Processing |
Lecture 30 - All Pass Realizations |
Link |
Digital Signal Processing |
Lecture 31 - Lattice Synthesis (Continued.) |
Link |
Digital Signal Processing |
Lecture 32 - FIR Lattice Synthesis |
Link |
Digital Signal Processing |
Lecture 33 - FIR Lattice (Continued.) and Digital Filter Design |
Link |
Digital Signal Processing |
Lecture 34 - IIR Filter Design |
Link |
Digital Signal Processing |
Lecture 35 - IIR Design by Bilinear Transformation |
Link |
Digital Signal Processing |
Lecture 36 - IIR Design Examples |
Link |
Digital Signal Processing |
Lecture 37 - Digital to Digital Frequency Transformation |
Link |
Digital Signal Processing |
Lecture 38 - FIR Design |
Link |
Digital Signal Processing |
Lecture 39 - FIR Digital Filter Design by Windowing |
Link |
Digital Signal Processing |
Lecture 40 - FIR Design by Windowing & Frequency Sampling |
Link |
Digital Signal Processing |
Lecture 41 - Solving Problems on DSP Structures |
Link |
Digital Signal Processing |
Lecture 42 - FIR Design by Frequency Sampling |
Link |
Digital Signal Processing |
Lecture 43 - FIR Design by Frequency Sampling (Continued.) |
Link |
Wireless Communication |
Lecture 1 - Motivation and Introduction |
Link |
Wireless Communication |
Lecture 2 - Types of Wireless communication |
Link |
Wireless Communication |
Lecture 3 - The modern wireless Communication Systems |
Link |
Wireless Communication |
Lecture 4 - The cellular concept - System Design issues |
Link |
Wireless Communication |
Lecture 5 - Cell capacity and reuse |
Link |
Wireless Communication |
Lecture 6 - Interference and System capacity |
Link |
Wireless Communication |
Lecture 7 - Improving coverage and system capacity |
Link |
Wireless Communication |
Lecture 8 - Mobile Radio Propagation |
Link |
Wireless Communication |
Lecture 9 - Mobile Radio Propagation (Continued.) |
Link |
Wireless Communication |
Lecture 10 - Mobile Radio Propagation (Continued.) |
Link |
Wireless Communication |
Lecture 11 - Mobile Radio Propagation (Continued.) |
Link |
Wireless Communication |
Lecture 12 - Mobile Radio Propagation (Continued.) |
Link |
Wireless Communication |
Lecture 13 - Mobile Radio Propagation (Continued.) |
Link |
Wireless Communication |
Lecture 14 - Mobile Radio Propagation II |
Link |
Wireless Communication |
Lecture 15 - Mobile Radio Propagation II (Continued.) |
Link |
Wireless Communication |
Lecture 16 - Mobile Radio Propagation II (Continued.) |
Link |
Wireless Communication |
Lecture 17 - Mobile Radio Propagation II (Continued.) |
Link |
Wireless Communication |
Lecture 18 - Mobile Radio Propagation II (Continued.) |
Link |
Wireless Communication |
Lecture 19 - Mobile Radio Propagation II (Continued.) |
Link |
Wireless Communication |
Lecture 20 - Mobile Radio Propagation II (Continued.) |
Link |
Wireless Communication |
Lecture 21 - Modulation Techniques for Mobile Communication |
Link |
Wireless Communication |
Lecture 22 - Modulation Techniques (Continued.) |
Link |
Wireless Communication |
Lecture 23 - Modulation Techniques (Continued.) |
Link |
Wireless Communication |
Lecture 24 - Modulation Techniques (Continued.) |
Link |
Wireless Communication |
Lecture 25 - Modulation Techniques (Continued.) |
Link |
Wireless Communication |
Lecture 26 - Modulation Techniques (Continued.) |
Link |
Wireless Communication |
Lecture 27 - Modulation Techniques (Continued.) |
Link |
Wireless Communication |
Lecture 28 - Equalization and Diversity Techniques |
Link |
Wireless Communication |
Lecture 29 - Equalization and Diversity Techniques (Continued.) |
Link |
Wireless Communication |
Lecture 30 - Equalization and Diversity Techniques (Continued.) |
Link |
Wireless Communication |
Lecture 31 - Equalization and Diversity Techniques (Continued.) |
Link |
Wireless Communication |
Lecture 32 - Coding Techniques for Mobile Communications |
Link |
Wireless Communication |
Lecture 33 - Coding Techniques for Mobile Communications (Continued.) |
Link |
Wireless Communication |
Lecture 34 - Coding Techniques for Mobile Communications (Continued.) |
Link |
Wireless Communication |
Lecture 35 - Coding Techniques for Mobile Communications (Continued.) |
Link |
Wireless Communication |
Lecture 36 - Wireless Networks |
Link |
Wireless Communication |
Lecture 37 - GSM and CDMA |
Link |
Wireless Communication |
Lecture 38 - GSM and CDMA (Continued.) |
Link |
Basic Electronics |
Lecture 1 - Semiconductor materials |
Link |
Basic Electronics |
Lecture 2 - PN Junction Diodes |
Link |
Basic Electronics |
Lecture 3 - Diode Equivalent Circuits |
Link |
Basic Electronics |
Lecture 4 - Diode Rectifier Circuits |
Link |
Basic Electronics |
Lecture 5 - Zener Diode and Applications |
Link |
Basic Electronics |
Lecture 6 - Clipping and Clamping Circuits |
Link |
Basic Electronics |
Lecture 7 - Transistor Operation - Part-1 |
Link |
Basic Electronics |
Lecture 8 - Transistor Operation - Part-2 |
Link |
Basic Electronics |
Lecture 9 - Biasing the BJT - Part-1 |
Link |
Basic Electronics |
Lecture 10 - Biasing the BJT - Part-2 |
Link |
Basic Electronics |
Lecture 11 - BJT Small Signal Analysis |
Link |
Basic Electronics |
Lecture 12 - BJT Amplifier - Part-1 |
Link |
Basic Electronics |
Lecture 13 - BJT Amplifier - Part-2 |
Link |
Basic Electronics |
Lecture 14 - Frequency Response of BJT Analysis - Part-1 |
Link |
Basic Electronics |
Lecture 15 - Bipolar Junction Transistors |
Link |
Basic Electronics |
Lecture 16 - Transistor as a Switch |
Link |
Basic Electronics |
Lecture 17 - MOSFET - Part-1 |
Link |
Basic Electronics |
Lecture 18 - MOSFET - Part-2 |
Link |
Basic Electronics |
Lecture 19 - MOSFET under dc operation |
Link |
Basic Electronics |
Lecture 20 - Mosfet as an Amplifier |
Link |
Basic Electronics |
Lecture 21 - Small signal model of MOSFET - Part-1 |
Link |
Basic Electronics |
Lecture 22 - Small signal model of MOSFET - Part-2 |
Link |
Basic Electronics |
Lecture 23 - High Frequency model of mosfet |
Link |
Basic Electronics |
Lecture 24 - Junction Field Effect Transistor |
Link |
Basic Electronics |
Lecture 25 - Operational Amplifier Introduction |
Link |
Basic Electronics |
Lecture 26 - Ideal Op-Amp |
Link |
Basic Electronics |
Lecture 27 - Op-Amp applications Part-1 |
Link |
Basic Electronics |
Lecture 28 - Op-Amp Applications Part-2 |
Link |
Basic Electronics |
Lecture 29 - Op-Amp Applications Part-3 |
Link |
Basic Electronics |
Lecture 30 - The practical Op-Amp |
Link |
Basic Electronics |
Lecture 31 - Positive feedback and oscillation |
Link |
Basic Electronics |
Lecture 32 - Comparator |
Link |
Basic Electronics |
Lecture 33 - Large Signal Amplifiers |
Link |
Basic Electronics |
Lecture 34 - Transformer Couple Power Amplifier |
Link |
Basic Electronics |
Lecture 35 - Class AB Operations of Power Amplifier |
Link |
Basic Electronics |
Lecture 36 - Power BJTs |
Link |
Basic Electronics |
Lecture 37 - Regulated Power Supply |
Link |
Basic Electronics |
Lecture 38 - Four Layered Diode |
Link |
Basic Electronics |
Lecture 39 - Silicon Control Rectifier |
Link |
Basic Electronics |
Lecture 40 - SCR Applications |
Link |
NOC:VLSI Design Verification and Test |
Lecture 1 - Introduction - Part 1 |
Link |
NOC:VLSI Design Verification and Test |
Lecture 2 - Introduction - Part 2 |
Link |
NOC:VLSI Design Verification and Test |
Lecture 3 - Overview of VLSI Design Flow |
Link |
NOC:VLSI Design Verification and Test |
Lecture 4 - High Level Synthesis Overview - Part 1 |
Link |
NOC:VLSI Design Verification and Test |
Lecture 5 - High Level Synthesis Overview - Part 2 |
Link |
NOC:VLSI Design Verification and Test |
Lecture 6 - Scheduling in HLS - Part 1 |
Link |
NOC:VLSI Design Verification and Test |
Lecture 7 - Scheduling in HLS - Part 2 |
Link |
NOC:VLSI Design Verification and Test |
Lecture 8 - Scheduling in HLS - Part 3 |
Link |
NOC:VLSI Design Verification and Test |
Lecture 9 - Scheduling in HLS - Part 4 |
Link |
NOC:VLSI Design Verification and Test |
Lecture 10 - Scheduling in HLS - Part 5 |
Link |
NOC:VLSI Design Verification and Test |
Lecture 11 - Scheduling in HLS - Part 6 |
Link |
NOC:VLSI Design Verification and Test |
Lecture 12 - Scheduling in HLS - Part 7 |
Link |
NOC:VLSI Design Verification and Test |
Lecture 13 - Resource Sharing and Binding in HLS - Part 1 |
Link |
NOC:VLSI Design Verification and Test |
Lecture 14 - Resource Sharing and Binding in HLS - Part 2 |
Link |
NOC:VLSI Design Verification and Test |
Lecture 15 - Resource Sharing and Binding in HLS - Part 3 |
Link |
NOC:VLSI Design Verification and Test |
Lecture 16 - Resource Sharing and Binding in HLS - Part 4 |
Link |
NOC:VLSI Design Verification and Test |
Lecture 17 - Resource Sharing and Binding in HLS - Part 5 |
Link |
NOC:VLSI Design Verification and Test |
Lecture 18 - Resource Sharing and Binding in HLS - Part 6 |
Link |
NOC:VLSI Design Verification and Test |
Lecture 19 - Resource Sharing and Binding in HLS - Part 7 |
Link |
NOC:VLSI Design Verification and Test |
Lecture 20 - Logic Synthesis - Part 1 |
Link |
NOC:VLSI Design Verification and Test |
Lecture 21 - Logic Synthesis - Part 2 |
Link |
NOC:VLSI Design Verification and Test |
Lecture 22 - Logic Synthesis - Part 3 |
Link |
NOC:VLSI Design Verification and Test |
Lecture 23 - Physical Design - Part 1 |
Link |
NOC:VLSI Design Verification and Test |
Lecture 24 - Physical Design - Part 2 |
Link |
NOC:VLSI Design Verification and Test |
Lecture 25 - Physical Design - Part 3 |
Link |
NOC:VLSI Design Verification and Test |
Lecture 26 - Introduction to formal methods for design verification |
Link |
NOC:VLSI Design Verification and Test |
Lecture 27 - Temporal Logic: Introduction and Basic Operations on Temporal Logic |
Link |
NOC:VLSI Design Verification and Test |
Lecture 28 - Syntax and Semantics of CLT |
Link |
NOC:VLSI Design Verification and Test |
Lecture 29 - Syntax and semantics of CTL (Continued...) |
Link |
NOC:VLSI Design Verification and Test |
Lecture 30 - Equivalences between CTL Formulas |
Link |
NOC:VLSI Design Verification and Test |
Lecture 31 - Introduction to Model Checking |
Link |
NOC:VLSI Design Verification and Test |
Lecture 32 - Model checking Algorithms |
Link |
NOC:VLSI Design Verification and Test |
Lecture 33 - Model checking Algorithms (Continued...) |
Link |
NOC:VLSI Design Verification and Test |
Lecture 34 - Model Checking with Fairness |
Link |
NOC:VLSI Design Verification and Test |
Lecture 35 - Binary Decision Diagram: Introduction and Construction |
Link |
NOC:VLSI Design Verification and Test |
Lecture 36 - Ordered Binary Decision Diagram (OBDD) |
Link |
NOC:VLSI Design Verification and Test |
Lecture 37 - Operation On OBDD |
Link |
NOC:VLSI Design Verification and Test |
Lecture 38 - OBDD for State Transition Systems E |
Link |
NOC:VLSI Design Verification and Test |
Lecture 39 - Symbolic Model Checking |
Link |
NOC:VLSI Design Verification and Test |
Lecture 40 - Introduction to Digital VLSI Testing |
Link |
NOC:VLSI Design Verification and Test |
Lecture 41 - Functional and Structural Testing |
Link |
NOC:VLSI Design Verification and Test |
Lecture 42 - Fault Equivalence |
Link |
NOC:VLSI Design Verification and Test |
Lecture 43 - Fault Simulation - I |
Link |
NOC:VLSI Design Verification and Test |
Lecture 44 - Fault Simulation - II |
Link |
NOC:VLSI Design Verification and Test |
Lecture 45 - Fault Simulation - III |
Link |
NOC:VLSI Design Verification and Test |
Lecture 46 - Testability Measures (SCOAP) |
Link |
NOC:VLSI Design Verification and Test |
Lecture 47 - Introduction to Automatic Test Pattern Generation (ATPG) and ATPG Algebras |
Link |
NOC:VLSI Design Verification and Test |
Lecture 48 - D-Algorithm - I |
Link |
NOC:VLSI Design Verification and Test |
Lecture 49 - D-Algorithm - II |
Link |
NOC:VLSI Design Verification and Test |
Lecture 50 - ATPG for Synchronous Sequential Circuits |
Link |
NOC:VLSI Design Verification and Test |
Lecture 51 - Scan Chain based Sequential Circuit Testing - I |
Link |
NOC:VLSI Design Verification and Test |
Lecture 52 - Scan Chain based Sequential Circuit Testing - II |
Link |
NOC:VLSI Design Verification and Test |
Lecture 53 - BIST - I |
Link |
NOC:VLSI Design Verification and Test |
Lecture 54 - BIST - II |
Link |
NOC:Design of Power Electronic Converters |
Lecture 1 - Introduction |
Link |
NOC:Design of Power Electronic Converters |
Lecture 2 - Analysis of Buck Converter |
Link |
NOC:Design of Power Electronic Converters |
Lecture 3 - Choosing L and C |
Link |
NOC:Design of Power Electronic Converters |
Lecture 4 - Design Example of Buck Converter |
Link |
NOC:Design of Power Electronic Converters |
Lecture 5 - Analysis of H Bridge |
Link |
NOC:Design of Power Electronic Converters |
Lecture 6 - Bipolar PWM |
Link |
NOC:Design of Power Electronic Converters |
Lecture 7 - Unipolar PWM |
Link |
NOC:Design of Power Electronic Converters |
Lecture 8 - Bipolar vs Unipolar PWM |
Link |
NOC:Design of Power Electronic Converters |
Lecture 9 - Different types of power diode |
Link |
NOC:Design of Power Electronic Converters |
Lecture 10 - Diode characteristics |
Link |
NOC:Design of Power Electronic Converters |
Lecture 11 - Diode Datasheets |
Link |
NOC:Design of Power Electronic Converters |
Lecture 12 - Diode Datasheet Examples |
Link |
NOC:Design of Power Electronic Converters |
Lecture 13 - MOSFET |
Link |
NOC:Design of Power Electronic Converters |
Lecture 14 - Switching characteristics of MOSFET |
Link |
NOC:Design of Power Electronic Converters |
Lecture 15 - MOSFET Datasheets - I |
Link |
NOC:Design of Power Electronic Converters |
Lecture 16 - MOSFET Datasheets - II |
Link |
NOC:Design of Power Electronic Converters |
Lecture 17 - MOSFET Datasheet example |
Link |
NOC:Design of Power Electronic Converters |
Lecture 18 - IGBT |
Link |
NOC:Design of Power Electronic Converters |
Lecture 19 - IGBT Datasheets - I |
Link |
NOC:Design of Power Electronic Converters |
Lecture 20 - IGBT Datasheets - II |
Link |
NOC:Design of Power Electronic Converters |
Lecture 21 - IGBT Datasheet Example |
Link |
NOC:Design of Power Electronic Converters |
Lecture 22 - Introduction to Gate Drivers |
Link |
NOC:Design of Power Electronic Converters |
Lecture 23 - Gate Driver Requirements |
Link |
NOC:Design of Power Electronic Converters |
Lecture 24 - Optocouplers based Gate Drivers - I |
Link |
NOC:Design of Power Electronic Converters |
Lecture 25 - Optocouplers based Gate Drivers - II |
Link |
NOC:Design of Power Electronic Converters |
Lecture 26 - Desat Protection |
Link |
NOC:Design of Power Electronic Converters |
Lecture 27 - Bootstrapping |
Link |
NOC:Design of Power Electronic Converters |
Lecture 28 - Pulse Transformer based Gate Drivers |
Link |
NOC:Design of Power Electronic Converters |
Lecture 29 - Gate Drivers - Few Other Requirements |
Link |
NOC:Design of Power Electronic Converters |
Lecture 30 - Introduction to Snubbers |
Link |
NOC:Design of Power Electronic Converters |
Lecture 31 - RC Snubber Analysis - I |
Link |
NOC:Design of Power Electronic Converters |
Lecture 32 - RC Snubber Analysis - II : Underdamped Case |
Link |
NOC:Design of Power Electronic Converters |
Lecture 33 - RC Snubber Analysis - III : Overdamped and Critically Damped Case |
Link |
NOC:Design of Power Electronic Converters |
Lecture 34 - RC Snubber Design - I |
Link |
NOC:Design of Power Electronic Converters |
Lecture 35 - RC Snubber Design - II |
Link |
NOC:Design of Power Electronic Converters |
Lecture 36 - RCD Snubbers - I |
Link |
NOC:Design of Power Electronic Converters |
Lecture 37 - RCD Snubbers - II |
Link |
NOC:Design of Power Electronic Converters |
Lecture 38 - Power Loss - I |
Link |
NOC:Design of Power Electronic Converters |
Lecture 39 - Power Loss - II |
Link |
NOC:Design of Power Electronic Converters |
Lecture 40 - Thermal Modelling - I |
Link |
NOC:Design of Power Electronic Converters |
Lecture 41 - Thermal Modelling - II |
Link |
NOC:Design of Power Electronic Converters |
Lecture 42 - Thermal Modelling - III |
Link |
NOC:Design of Power Electronic Converters |
Lecture 43 - Choosing Heat Sinks |
Link |
NOC:Design of Power Electronic Converters |
Lecture 44 - Fundamentals |
Link |
NOC:Design of Power Electronic Converters |
Lecture 45 - Magnetic Losses |
Link |
NOC:Design of Power Electronic Converters |
Lecture 46 - Conductors |
Link |
NOC:Design of Power Electronic Converters |
Lecture 47 - Magnetic Materials |
Link |
NOC:Design of Power Electronic Converters |
Lecture 48 - Magnetic Core |
Link |
NOC:Design of Power Electronic Converters |
Lecture 49 - Inductor Design - I |
Link |
NOC:Design of Power Electronic Converters |
Lecture 50 - Inductor Design - II |
Link |
NOC:Design of Power Electronic Converters |
Lecture 51 - Transformer Design |
Link |
NOC:Design of Power Electronic Converters |
Lecture 52 - Inductor Design Example |
Link |
NOC:Design of Power Electronic Converters |
Lecture 53 - Example of Transformer Design |
Link |
NOC:Design of Power Electronic Converters |
Lecture 54 - Introduction to EMI |
Link |
NOC:Design of Power Electronic Converters |
Lecture 55 - EMI Measurements |
Link |
NOC:Design of Power Electronic Converters |
Lecture 56 - EMI in Power Electronics |
Link |
NOC:Design of Power Electronic Converters |
Lecture 57 - CM and DM noise |
Link |
NOC:Design of Power Electronic Converters |
Lecture 58 - Design Solutions of EMI |
Link |
NOC:Design of Power Electronic Converters |
Lecture 59 - EMI Filter - I |
Link |
NOC:Design of Power Electronic Converters |
Lecture 60 - EMI Filter - II |
Link |
NOC:Design of Power Electronic Converters |
Lecture 61 - Sections of Power Converters |
Link |
NOC:Design of Power Electronic Converters |
Lecture 62 - Capacitors |
Link |
NOC:Design of Power Electronic Converters |
Lecture 63 - Familiarity with Components - I |
Link |
NOC:Design of Power Electronic Converters |
Lecture 64 - Familiarity with Components - II |
Link |
NOC:Design of Power Electronic Converters |
Lecture 65 - PCB - I |
Link |
NOC:Design of Power Electronic Converters |
Lecture 66 - PCB - II |
Link |
NOC:Design of Power Electronic Converters |
Lecture 67 - PCB - III |
Link |
NOC:Design of Power Electronic Converters |
Lecture 68 - Grounds |
Link |
NOC:Design of Power Electronic Converters |
Lecture 69 - Lab Demo of Hardware Design |
Link |
NOC:Design of Power Electronic Converters |
Lecture 70 - Tutorial: PCB Designing |
Link |
NOC:Operation and Planning of Power Distribution Systems |
Lecture 1 - Power systems: Overview and historical developments |
Link |
NOC:Operation and Planning of Power Distribution Systems |
Lecture 2 - Introduction to power delivery systems |
Link |
NOC:Operation and Planning of Power Distribution Systems |
Lecture 3 - Introduction to electrical loads |
Link |
NOC:Operation and Planning of Power Distribution Systems |
Lecture 4 - Load diversity |
Link |
NOC:Operation and Planning of Power Distribution Systems |
Lecture 5 - Different load indices |
Link |
NOC:Operation and Planning of Power Distribution Systems |
Lecture 6 - Loss factor |
Link |
NOC:Operation and Planning of Power Distribution Systems |
Lecture 7 - Load management |
Link |
NOC:Operation and Planning of Power Distribution Systems |
Lecture 8 - Brief overview of power distribution substation |
Link |
NOC:Operation and Planning of Power Distribution Systems |
Lecture 9 - Substation bus schemes and primary distribution network topology |
Link |
NOC:Operation and Planning of Power Distribution Systems |
Lecture 10 - Voltage drop and power loss computations for typical radial distribution feeders |
Link |
NOC:Operation and Planning of Power Distribution Systems |
Lecture 11 - Genaralized expression for voltage drop for radial distribution feeder |
Link |
NOC:Operation and Planning of Power Distribution Systems |
Lecture 12 - Derivation of K-constant for voltage drop computation |
Link |
NOC:Operation and Planning of Power Distribution Systems |
Lecture 13 - Different reliability indices used in distribution networks |
Link |
NOC:Operation and Planning of Power Distribution Systems |
Lecture 14 - Different reliability indices with numerical examples |
Link |
NOC:Operation and Planning of Power Distribution Systems |
Lecture 15 - Mathematical concept of reliability |
Link |
NOC:Operation and Planning of Power Distribution Systems |
Lecture 16 - Reliability evaluation of multiple units connected to series and/or parallel |
Link |
NOC:Operation and Planning of Power Distribution Systems |
Lecture 17 - Numerical problems on reliability evaluation |
Link |
NOC:Operation and Planning of Power Distribution Systems |
Lecture 18 - Power quality problems in distribution systems |
Link |
NOC:Operation and Planning of Power Distribution Systems |
Lecture 19 - Forward backward load flow approach for power distribution systems |
Link |
NOC:Operation and Planning of Power Distribution Systems |
Lecture 20 - Forward backward load flow approach for power distribution systems |
Link |
NOC:Operation and Planning of Power Distribution Systems |
Lecture 21 - Reactive power compensation: Basic idea |
Link |
NOC:Operation and Planning of Power Distribution Systems |
Lecture 22 - Reactive power compensation: Numerical examples |
Link |
NOC:Operation and Planning of Power Distribution Systems |
Lecture 23 - Capacitor placement at distribution feeder: Analytical approach |
Link |
NOC:Operation and Planning of Power Distribution Systems |
Lecture 24 - Power distribution system planning: Economic aspects |
Link |
NOC:Operation and Planning of Power Distribution Systems |
Lecture 25 - Power distribution system planning: Different models and solution strategies |
Link |
NOC:Operation and Planning of Power Distribution Systems |
Lecture 26 - Mono-objective power distribution system planning approach |
Link |
NOC:Operation and Planning of Power Distribution Systems |
Lecture 27 - Multi-objective power distribution system planning approach |
Link |
NOC:Operation and Planning of Power Distribution Systems |
Lecture 28 - Multi-objective planning incorporating sectionalizing switches and tie-lines |
Link |
NOC:Operation and Planning of Power Distribution Systems |
Lecture 29 - Reconfiguration of power distribution networks |
Link |
NOC:Operation and Planning of Power Distribution Systems |
Lecture 30 - Distribution networks with the integration of Distributed Generation |
Link |
NOC:Operation and Planning of Power Distribution Systems |
Lecture 31 - Concept of microgrids |
Link |
NOC:Operation and Planning of Power Distribution Systems |
Lecture 32 - Wind and solar energy conversion systems |
Link |
NOC:Operation and Planning of Power Distribution Systems |
Lecture 33 - Energy storage systems |
Link |
NOC:Operation and Planning of Power Distribution Systems |
Lecture 34 - Distribution system automation and smart grid - Part I |
Link |
NOC:Operation and Planning of Power Distribution Systems |
Lecture 35 - Distribution system automation and smart grid - Part II |
Link |
NOC:Nanophotonics, Plasmonics, and Metamaterials |
Lecture 1 - Introduction to Nanophotonics and Plasmonics |
Link |
NOC:Nanophotonics, Plasmonics, and Metamaterials |
Lecture 2 - Introduction to Metamaterials and Metasurfaces |
Link |
NOC:Nanophotonics, Plasmonics, and Metamaterials |
Lecture 3 - Overview and current status |
Link |
NOC:Nanophotonics, Plasmonics, and Metamaterials |
Lecture 4 - Electromagnetic theory of light |
Link |
NOC:Nanophotonics, Plasmonics, and Metamaterials |
Lecture 5 - Electromagnetic properties of material |
Link |
NOC:Nanophotonics, Plasmonics, and Metamaterials |
Lecture 6 - Electromagnetic waves in dielectric media |
Link |
NOC:Nanophotonics, Plasmonics, and Metamaterials |
Lecture 7 - Polarization of light |
Link |
NOC:Nanophotonics, Plasmonics, and Metamaterials |
Lecture 8 - Reflection and refraction: Fresnel equations |
Link |
NOC:Nanophotonics, Plasmonics, and Metamaterials |
Lecture 9 - Absorption, dispersion and scattering of light |
Link |
NOC:Nanophotonics, Plasmonics, and Metamaterials |
Lecture 10 - Matrix theory of dielectric layered media |
Link |
NOC:Nanophotonics, Plasmonics, and Metamaterials |
Lecture 11 - 1D Photonic crystals |
Link |
NOC:Nanophotonics, Plasmonics, and Metamaterials |
Lecture 12 - Dispersion relation and photonic band structure |
Link |
NOC:Nanophotonics, Plasmonics, and Metamaterials |
Lecture 13 - Real and reciprocal lattices |
Link |
NOC:Nanophotonics, Plasmonics, and Metamaterials |
Lecture 14 - 2D and 3D Photonic crystals |
Link |
NOC:Nanophotonics, Plasmonics, and Metamaterials |
Lecture 15 - Emerging Applications of Photonic Crystals |
Link |
NOC:Nanophotonics, Plasmonics, and Metamaterials |
Lecture 16 - Optical properties of metals |
Link |
NOC:Nanophotonics, Plasmonics, and Metamaterials |
Lecture 17 - Surface Plasmon Polaritons (SPP): Fundamentals |
Link |
NOC:Nanophotonics, Plasmonics, and Metamaterials |
Lecture 18 - Applications of SPPs |
Link |
NOC:Nanophotonics, Plasmonics, and Metamaterials |
Lecture 19 - Localized surface plasmon resonance (LSPR) |
Link |
NOC:Nanophotonics, Plasmonics, and Metamaterials |
Lecture 20 - Plasmonic nanoparticles: Antenna and Waveguides |
Link |
NOC:Nanophotonics, Plasmonics, and Metamaterials |
Lecture 21 - Applications of LSPR |
Link |
NOC:Nanophotonics, Plasmonics, and Metamaterials |
Lecture 22 - Fundamentals of metamaterials |
Link |
NOC:Nanophotonics, Plasmonics, and Metamaterials |
Lecture 23 - Effective medium theories |
Link |
NOC:Nanophotonics, Plasmonics, and Metamaterials |
Lecture 24 - Single and Double-Negative Metamaterials |
Link |
NOC:Nanophotonics, Plasmonics, and Metamaterials |
Lecture 25 - Metamaterial Perfect absorbers |
Link |
NOC:Nanophotonics, Plasmonics, and Metamaterials |
Lecture 26 - Super lens, Hyperbolic Metamaterials and Hyper lens |
Link |
NOC:Nanophotonics, Plasmonics, and Metamaterials |
Lecture 27 - Tunable photonic metamaterial based devices |
Link |
NOC:Nanophotonics, Plasmonics, and Metamaterials |
Lecture 28 - Metasurfaces and Frequency selective surfaces |
Link |
NOC:Nanophotonics, Plasmonics, and Metamaterials |
Lecture 29 - Guided mode resonances (GMR) |
Link |
NOC:Nanophotonics, Plasmonics, and Metamaterials |
Lecture 30 - Applications of metasurfaces and GMR devices |
Link |
NOC:Nanophotonics, Plasmonics, and Metamaterials |
Lecture 31 - Transformation Optics (TO) and Invisibility Cloaks |
Link |
NOC:Nanophotonics, Plasmonics, and Metamaterials |
Lecture 32 - Carpet cloaking and TO metamaterials |
Link |
NOC:Nanophotonics, Plasmonics, and Metamaterials |
Lecture 33 - Introduction to alternative materials |
Link |
NOC:Nanophotonics, Plasmonics, and Metamaterials |
Lecture 34 - Nanofabrication: Physical and Chemical methods |
Link |
NOC:Nanophotonics, Plasmonics, and Metamaterials |
Lecture 35 - Lithography and Pattern transfer |
Link |
NOC:Nanophotonics, Plasmonics, and Metamaterials |
Lecture 36 - Nanophotonic characterization methods |
Link |
NOC:Power Electronics Applications in Power Systems |
Lecture 1 - Basic Concepts of active and reactive power |
Link |
NOC:Power Electronics Applications in Power Systems |
Lecture 2 - Basic Concepts of reactive power compensation |
Link |
NOC:Power Electronics Applications in Power Systems |
Lecture 3 - Basic mathematical modelling of power transmission systems |
Link |
NOC:Power Electronics Applications in Power Systems |
Lecture 4 - Derivation of the relation of sending and receiving end voltages and currents - Part A |
Link |
NOC:Power Electronics Applications in Power Systems |
Lecture 5 - Derivation of the relation of sending and receiving end voltages and currents - Part B |
Link |
NOC:Power Electronics Applications in Power Systems |
Lecture 6 - Derivations of power flow expressions |
Link |
NOC:Power Electronics Applications in Power Systems |
Lecture 7 - Numerical example showing determination of power flow |
Link |
NOC:Power Electronics Applications in Power Systems |
Lecture 8 - Generalized expression for active and reactive power at any point of a long line |
Link |
NOC:Power Electronics Applications in Power Systems |
Lecture 9 - Mid-point voltage and current for long, lossless transmission lines |
Link |
NOC:Power Electronics Applications in Power Systems |
Lecture 10 - Plot of mid-point voltage vs line loading |
Link |
NOC:Power Electronics Applications in Power Systems |
Lecture 11 - Numerical example of mid-point compensation - Part A |
Link |
NOC:Power Electronics Applications in Power Systems |
Lecture 12 - Numerical example of mid-point compensation - Part B |
Link |
NOC:Power Electronics Applications in Power Systems |
Lecture 13 - Effect of Mid-point compensation on power flow of transmission lines |
Link |
NOC:Power Electronics Applications in Power Systems |
Lecture 14 - Thyristor controlled reactor (TCR) |
Link |
NOC:Power Electronics Applications in Power Systems |
Lecture 15 - Harmonics in TCR and Three-phase TCR configuration |
Link |
NOC:Power Electronics Applications in Power Systems |
Lecture 16 - Operating Characteristics of TCR |
Link |
NOC:Power Electronics Applications in Power Systems |
Lecture 17 - Categorization of different types of SVC and Fixed capacitor TCR (FC-TCR) |
Link |
NOC:Power Electronics Applications in Power Systems |
Lecture 18 - Mechanically Switched Capacitor TCR (MSC-TCR) and Thyrisor Switch Capacitor (TSC) |
Link |
NOC:Power Electronics Applications in Power Systems |
Lecture 19 - Thyristor Switch Capacitor (TSC) |
Link |
NOC:Power Electronics Applications in Power Systems |
Lecture 20 - Design of TSC-TCR: Numerical Example |
Link |
NOC:Power Electronics Applications in Power Systems |
Lecture 21 - SVC in enhancement of steady-state power transmission capacity |
Link |
NOC:Power Electronics Applications in Power Systems |
Lecture 22 - SVC in enhancement of transient stability of power systems |
Link |
NOC:Power Electronics Applications in Power Systems |
Lecture 23 - SVC in enhancement of synchronizing power coefficient |
Link |
NOC:Power Electronics Applications in Power Systems |
Lecture 24 - SVC in and power system oscillation damping |
Link |
NOC:Power Electronics Applications in Power Systems |
Lecture 25 - SVC in voltage control of power systems: Modelling |
Link |
NOC:Power Electronics Applications in Power Systems |
Lecture 26 - SVC in voltage control of power systems: Control characteristics |
Link |
NOC:Power Electronics Applications in Power Systems |
Lecture 27 - SVC in voltage control of power systems: Numerical example |
Link |
NOC:Power Electronics Applications in Power Systems |
Lecture 28 - Basic operating principle of TCSC |
Link |
NOC:Power Electronics Applications in Power Systems |
Lecture 29 - Basic mathematical modelling of TCSC - Part 1 |
Link |
NOC:Power Electronics Applications in Power Systems |
Lecture 30 - Basic mathematical modelling of TCSC - Part 2 |
Link |
NOC:Power Electronics Applications in Power Systems |
Lecture 31 - TCSC reactance and hamomics analysis |
Link |
NOC:Power Electronics Applications in Power Systems |
Lecture 32 - Applications of TCSC in power systems |
Link |
NOC:Power Electronics Applications in Power Systems |
Lecture 33 - Basic mathematical modelling of STATCOM |
Link |
NOC:Power Electronics Applications in Power Systems |
Lecture 34 - Applications of STATCOM in power systems |
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NOC:Power Electronics Applications in Power Systems |
Lecture 35 - Basic mathematical modelling of SSSC |
Link |
NOC:Power Electronics Applications in Power Systems |
Lecture 36 - Applications of SSSC in power systems |
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Signals and Systems |
Lecture 1 |
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Signals and Systems |
Lecture 2 |
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Signals and Systems |
Lecture 3 |
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Signals and Systems |
Lecture 4 |
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Signals and Systems |
Lecture 5 |
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Signals and Systems |
Lecture 6 |
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Signals and Systems |
Lecture 7 |
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Signals and Systems |
Lecture 8 |
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Signals and Systems |
Lecture 9 |
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Signals and Systems |
Lecture 10 |
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Signals and Systems |
Lecture 11 |
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Signals and Systems |
Lecture 12 |
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Signals and Systems |
Lecture 13 |
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Signals and Systems |
Lecture 14 |
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Signals and Systems |
Lecture 15 |
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Signals and Systems |
Lecture 16 |
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Signals and Systems |
Lecture 17 |
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Signals and Systems |
Lecture 18 |
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Signals and Systems |
Lecture 19 |
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Signals and Systems |
Lecture 20 |
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Signals and Systems |
Lecture 21 |
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Signals and Systems |
Lecture 22 |
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Signals and Systems |
Lecture 23 |
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Signals and Systems |
Lecture 24 |
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Signals and Systems |
Lecture 25 |
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Signals and Systems |
Lecture 26 |
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Signals and Systems |
Lecture 27 |
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Signals and Systems |
Lecture 28 |
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Signals and Systems |
Lecture 29 |
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Signals and Systems |
Lecture 30 |
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Signals and Systems |
Lecture 31 |
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Signals and Systems |
Lecture 32 |
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Signals and Systems |
Lecture 33 |
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Signals and Systems |
Lecture 34 |
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Signals and Systems |
Lecture 35 |
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Signals and Systems |
Lecture 36 |
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Signals and Systems |
Lecture 37 |
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Signals and Systems |
Lecture 38 |
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Signals and Systems |
Lecture 39 |
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Signals and Systems |
Lecture 40 |
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Signals and Systems |
Lecture 41 |
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Signals and Systems |
Lecture 42 |
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Signals and Systems |
Lecture 43 |
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Signals and Systems |
Lecture 44 |
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Signals and Systems |
Lecture 45 |
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Advanced 3G and 4G Wireless Mobile Communications |
Lecture 1 - Introduction to 3G/4G Standards |
Link |
Advanced 3G and 4G Wireless Mobile Communications |
Lecture 2 - Wireless Channel and Fading |
Link |
Advanced 3G and 4G Wireless Mobile Communications |
Lecture 3 - Rayleigh Fading and BER of Wired Communication |
Link |
Advanced 3G and 4G Wireless Mobile Communications |
Lecture 4 - BER for Wireless Communication |
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Advanced 3G and 4G Wireless Mobile Communications |
Lecture 5 - Introduction to Diversity |
Link |
Advanced 3G and 4G Wireless Mobile Communications |
Lecture 6 - Multi-antenna Maximal Ratio Combiner |
Link |
Advanced 3G and 4G Wireless Mobile Communications |
Lecture 7 - BER with Diversity |
Link |
Advanced 3G and 4G Wireless Mobile Communications |
Lecture 8 - Spatial Diversity and Diversity Order |
Link |
Advanced 3G and 4G Wireless Mobile Communications |
Lecture 9 - Wireless Channel and Delay Spread |
Link |
Advanced 3G and 4G Wireless Mobile Communications |
Lecture 10 - Coherence Bandwidth of the Wireless Channel |
Link |
Advanced 3G and 4G Wireless Mobile Communications |
Lecture 11 - ISI and Doppler in Wireless Communications |
Link |
Advanced 3G and 4G Wireless Mobile Communications |
Lecture 12 - Doppler Spectrum and Jakes Model |
Link |
Advanced 3G and 4G Wireless Mobile Communications |
Lecture 13 - Introduction to CDMA, Spread Spectrum and LFSR |
Link |
Advanced 3G and 4G Wireless Mobile Communications |
Lecture 14 - Generation and Properties of PN Sequences |
Link |
Advanced 3G and 4G Wireless Mobile Communications |
Lecture 15 - Correlation of PN Sequences and Jammer Margin |
Link |
Advanced 3G and 4G Wireless Mobile Communications |
Lecture 16 - CDMA Advantages and RAKE Receiver |
Link |
Advanced 3G and 4G Wireless Mobile Communications |
Lecture 17 - Multi-User CDMA Downlink Part I |
Link |
Advanced 3G and 4G Wireless Mobile Communications |
Lecture 18 - Multi-User CDMA Downlink Part II |
Link |
Advanced 3G and 4G Wireless Mobile Communications |
Lecture 19 - Multi-User CDMA Uplink and Asynchronous CDMA |
Link |
Advanced 3G and 4G Wireless Mobile Communications |
Lecture 20 - CDMA Near-Far Problem and Introduction to MIMO |
Link |
Advanced 3G and 4G Wireless Mobile Communications |
Lecture 21 - MIMO System Model and Zero-Forcing Receiver |
Link |
Advanced 3G and 4G Wireless Mobile Communications |
Lecture 22 - MIMO MMSE Receiver and Introduction to SVD |
Link |
Advanced 3G and 4G Wireless Mobile Communications |
Lecture 23 - SVD Based Optimal MIMO Transmission and Capacity |
Link |
Advanced 3G and 4G Wireless Mobile Communications |
Lecture 24 - SVD Based Optimal MIMO Transmission and Capacity |
Link |
Advanced 3G and 4G Wireless Mobile Communications |
Lecture 25 - OSTBCs and Introduction to V-BLAST Receiver |
Link |
Advanced 3G and 4G Wireless Mobile Communications |
Lecture 26 - V-BLAST (Continued) and MIMO Beamforming |
Link |
Advanced 3G and 4G Wireless Mobile Communications |
Lecture 27 - Introduction to OFDM and Multi-Carrier Modulation |
Link |
Advanced 3G and 4G Wireless Mobile Communications |
Lecture 28 - IFFT Sampling for OFDM |
Link |
Advanced 3G and 4G Wireless Mobile Communications |
Lecture 29 - OFDM Schematic and Cyclic Prefix |
Link |
Advanced 3G and 4G Wireless Mobile Communications |
Lecture 30 - OFDM Based Parallelization and OFDM Example |
Link |
Advanced 3G and 4G Wireless Mobile Communications |
Lecture 31 - OFDM Example (Continued) and Introduction to MIMO-OFDM |
Link |
Advanced 3G and 4G Wireless Mobile Communications |
Lecture 32 - MIMO-OFDM (Continued) |
Link |
Advanced 3G and 4G Wireless Mobile Communications |
Lecture 33 - Impact of Carrier Frequency Offset (CFO) in OFDM |
Link |
Advanced 3G and 4G Wireless Mobile Communications |
Lecture 34 - PAPR in OFDM Systems and Introduction to SC-FDMA |
Link |
Advanced 3G and 4G Wireless Mobile Communications |
Lecture 35 - SC-FDMA (Continued) and Introduction of Wireless Propagation Models |
Link |
Advanced 3G and 4G Wireless Mobile Communications |
Lecture 36 - Ground Reflection and Okumura Models |
Link |
Advanced 3G and 4G Wireless Mobile Communications |
Lecture 37 - Hata Model and Log Normal Shadowing |
Link |
Advanced 3G and 4G Wireless Mobile Communications |
Lecture 38 - Link Budget Analysis |
Link |
Advanced 3G and 4G Wireless Mobile Communications |
Lecture 39 - Introduction to Teletraffic Theory |
Link |
Advanced 3G and 4G Wireless Mobile Communications |
Lecture 40 - Cellular Traffic Modeling and Blocking Probability |
Link |
Digital Switching |
Lecture 1 - Digital Switching |
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Digital Switching |
Lecture 2 - Digital Switching |
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Digital Switching |
Lecture 3 - Digital Switching |
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Digital Switching |
Lecture 4 - Digital Switching |
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Digital Switching |
Lecture 5 - Digital Switching |
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Digital Switching |
Lecture 6 - Digital Switching |
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Digital Switching |
Lecture 7 - Digital Switching |
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Digital Switching |
Lecture 8 - Digital Switching |
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Digital Switching |
Lecture 9 - Digital Switching |
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Digital Switching |
Lecture 10 - Digital Switching |
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Digital Switching |
Lecture 11 - Digital Switching |
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Digital Switching |
Lecture 12 - Digital Switching |
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Digital Switching |
Lecture 13 - Digital Switching |
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Digital Switching |
Lecture 14 - Digital Switching |
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Digital Switching |
Lecture 15 - Digital Switching |
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Digital Switching |
Lecture 16 - Digital Switching |
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Digital Switching |
Lecture 17 - Digital Switching |
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Digital Switching |
Lecture 18 - Digital Switching |
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Digital Switching |
Lecture 19 - Digital Switching |
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Digital Switching |
Lecture 20 - Digital Switching |
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Digital Switching |
Lecture 21 - Digital Switching |
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Digital Switching |
Lecture 22 - Digital Switching |
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Digital Switching |
Lecture 23 - Digital Switching |
Link |
Digital Switching |
Lecture 24 - Digital Switching |
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Digital Switching |
Lecture 25 - Digital Switching |
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Digital Switching |
Lecture 26 - Digital Switching |
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Digital Switching |
Lecture 27 - Digital Switching |
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Digital Switching |
Lecture 28 - Digital Switching |
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Digital Switching |
Lecture 29 - Digital Switching |
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Digital Switching |
Lecture 30 - Digital Switching |
Link |
Digital Switching |
Lecture 31 - Digital Switching |
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Digital Switching |
Lecture 32 - Digital Switching |
Link |
Digital Switching |
Lecture 33 - Digital Switching |
Link |
Digital Switching |
Lecture 34 - Digital Switching |
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Digital Switching |
Lecture 35 - Digital Switching |
Link |
Digital Switching |
Lecture 36 - Digital Switching |
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Digital Switching |
Lecture 37 - Digital Switching |
Link |
NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 1 - Evolution of Wireless Communication Technologies |
Link |
NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 2 - Modeling Wireless Channel |
Link |
NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 3 - Wireless Fading Channel Model |
Link |
NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 4 - Fading Channel Distribution |
Link |
NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 5 - Rayleigh Fading Channel |
Link |
NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 6 - Bit Error Rate (BER) Performance |
Link |
NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 7 - Bit Error Rate (BER) of AWGN Channels |
Link |
NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 8 - Bit Error Rate of Rayleigh Fading Wireless Channel |
Link |
NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 9 - Exact BER Expression for Rayleigh Fading Wireless Channel |
Link |
NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 10 - Deep Fade Analysis of Wireless Communication |
Link |
NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 11 - Principle of Diversity |
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NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 12 - Multiple Antenna Diversity |
Link |
NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 13 - Maximal-Ratio Combining |
Link |
NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 14 - BER of Multiple Antenna Wireless Systems |
Link |
NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 15 - Approximate BER for Multiple Antenna Wireless System |
Link |
NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 16 - Examples for BER of Wireless Communication |
Link |
NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 17 - Deep Fade in Multi Antenna Systems |
Link |
NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 18 - Intuition for Deep Fade in Multi-Antenna System |
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NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 19 - Definition of Diversity Order |
Link |
NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 20 - Max Delay Spread |
Link |
NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 21 - RMS Delay Spread |
Link |
NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 22 - Delay Spread and Inter Symbol Interference |
Link |
NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 23 - Coherence Bandwidth of Wireless Channel |
Link |
NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 24 - Mobility and Doppler Effect in Wireless Channels |
Link |
NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 25 - Imapact of Doppler Effect on Wireless Channel |
Link |
NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 26 - Introduction to Code Division Multiple Access (CDMA) |
Link |
NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 27 - Chip Time and Bandwidth Expansion in CDMA |
Link |
NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 28 - Code Generation for CDMA |
Link |
NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 29 - CDMA Codes: Properties of PN Sequences |
Link |
NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 30 - BER of CDMA Systems |
Link |
NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 31 - Analysis of Multi-user CDMA |
Link |
NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 32 - Multipath Diversity in CDMA Systems |
Link |
NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 33 - Near-Far Problem in CDMA |
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NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 34 - Multiple Input Multiple Output (MIMO) Systems |
Link |
NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 35 - Examples of MIMO Systems |
Link |
NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 36 - MIMO Receivers |
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NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 37 - BER Performance of ZF Receiver |
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NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 38 - Transmit Beamforming in MISO Systems |
Link |
NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 39 - Alamouti Code and Space-Time Block Codes |
Link |
NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 40 - BER of Alamouti Coded System |
Link |
NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 41 - Singular Value Decomposition (SVD) |
Link |
NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 42 - SVD in MIMO |
Link |
NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 43 - Capacity of MIMO Wireless Systems |
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NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 44 - SVD based MIMO Transmission |
Link |
NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 45 - Orthogonal Frequency Division Multiplexing (OFDM) |
Link |
NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 46 - Transmission in Multicarrier Systems |
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NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 47 - FFT/IFFT Processing in OFDM |
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NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 48 - Cyclic Prefix in OFDM Systems |
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NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 49 - Schematic Represntation of OFDM Transmitter and Receiver |
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NOC:Principles of Modern CDMA-MIMO-OFDM Wireless Communications |
Lecture 50 - BER Performance of OFDM Systems |
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NOC:Probability and Random Variables, Processes for Wireless Communications |
Lecture 1 - Basics - Sample Space and Events |
Link |
NOC:Probability and Random Variables, Processes for Wireless Communications |
Lecture 2 - Axioms of Probability |
Link |
NOC:Probability and Random Variables, Processes for Wireless Communications |
Lecture 3 - Conditional Probability - Mary-PAM Example |
Link |
NOC:Probability and Random Variables, Processes for Wireless Communications |
Lecture 4 - Independent Events - Mary-PAM Example |
Link |
NOC:Probability and Random Variables, Processes for Wireless Communications |
Lecture 5 - Independent Events - Block Transmission Example |
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NOC:Probability and Random Variables, Processes for Wireless Communications |
Lecture 6 - Independent Events - Multiantenna Fading Example |
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NOC:Probability and Random Variables, Processes for Wireless Communications |
Lecture 7 - Bayes Theorem and Aposteriori Probabilities |
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NOC:Probability and Random Variables, Processes for Wireless Communications |
Lecture 8 - Maximum Aposteriori Probability (MAP) Receiver |
Link |
NOC:Probability and Random Variables, Processes for Wireless Communications |
Lecture 9 - Random Variables, Probability Density Function (PDF) |
Link |
NOC:Probability and Random Variables, Processes for Wireless Communications |
Lecture 10 - Application: Power of Fading Wireless Channel |
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NOC:Probability and Random Variables, Processes for Wireless Communications |
Lecture 11 - Mean, Variance of Random Variables |
Link |
NOC:Probability and Random Variables, Processes for Wireless Communications |
Lecture 12 - Application: Average Delay and RMS Delay Spread of Wireless Channel |
Link |
NOC:Probability and Random Variables, Processes for Wireless Communications |
Lecture 13 - Transformation of Random Variables and Rayleigh Fading Wireless Channel |
Link |
NOC:Probability and Random Variables, Processes for Wireless Communications |
Lecture 14 - Gaussian Random Variable and Linear Transformation |
Link |
NOC:Probability and Random Variables, Processes for Wireless Communications |
Lecture 15 - Special Case: IID Gaussian Random Variables |
Link |
NOC:Probability and Random Variables, Processes for Wireless Communications |
Lecture 16 - Application: Array Processing and Array Gain with Uniform Linear Arrays |
Link |
NOC:Probability and Random Variables, Processes for Wireless Communications |
Lecture 17 - Random Processes and Wide Sense Stationarity (WSS) |
Link |
NOC:Probability and Random Variables, Processes for Wireless Communications |
Lecture 18 - WSS Example Narrowband Wireless Signal with Random Phase |
Link |
NOC:Probability and Random Variables, Processes for Wireless Communications |
Lecture 19 - Power Spectral Density (PSD) for WSS Random Process |
Link |
NOC:Probability and Random Variables, Processes for Wireless Communications |
Lecture 20 - PSD Application in Wireless Bandwidth Required for Signal Transmission |
Link |
NOC:Probability and Random Variables, Processes for Wireless Communications |
Lecture 21 - Transmission of WSS Random Process Through LTI System |
Link |
NOC:Probability and Random Variables, Processes for Wireless Communications |
Lecture 22 - Special Random Processes Gaussian Process and White Noise AWGN Communication Channel |
Link |
NOC:Probability and Random Variables, Processes for Wireless Communications |
Lecture 23 - Gaussian Process Through LTI System Example: WGN Through RC Low Pass Fillter Not Started |
Link |
NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks |
Lecture 1 - Basics - Sensor Network and Noisy Observation Model |
Link |
NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks |
Lecture 2 - Likelihood Function and Maximum Likelihood (ML) Estimate |
Link |
NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks |
Lecture 3 - Properties of Maximum Likelihood (ML) Estimate Mean and Unbiasedness |
Link |
NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks |
Lecture 4 - Properties of Maximum Likelihood (ML) Estimate Variance and Spread Around Mean |
Link |
NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks |
Lecture 5 - Reliability of the Maximum Likelihood (ML) Estimate Number of Samples Required |
Link |
NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks |
Lecture 6 - Estimation of Complex Parameters Symmetric Zero Mean Complex Gaussian Noise |
Link |
NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks |
Lecture 7 - Wireless Fading Channel Estimation Pilot Symbols and Likelihood Function |
Link |
NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks |
Lecture 8 - Wireless Fading Channel Estimation Pilot Training based Maximum Likelihood ML Estimate |
Link |
NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks |
Lecture 9 - Wireless Fading Channel Estimation Mean and Variance of Pilot Training Based Maximum Likelihood |
Link |
NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks |
Lecture 10 - Example Wireless Fading Channel Estimation for Downlink Mobile Communication |
Link |
NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks |
Lecture 11 - Cramer Rao Bound (CRB) for Parameter Estimation |
Link |
NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks |
Lecture 12 - Cramer Rao Bound CRB Example Wireless Sensor Network |
Link |
NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks |
Lecture 13 - Vector Parameter Estimation System Model for Multi Antenna Downlink Channel Estimation |
Link |
NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks |
Lecture 14 - Likelihood Function and Least Squares Cost Function for Vector Parameter Estimation |
Link |
NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks |
Lecture 15 - Least Squares Cost Function for Vector Parameter Estimation Vector Derivative Gradient |
Link |
NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks |
Lecture 16 - Least Squares Solution Maximum Likelihood ML Estimate Pseudo Inverse |
Link |
NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks |
Lecture 17 - Properties of Least Squares Estimate Mean Covariance and Distribution |
Link |
NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks |
Lecture 18 - Least Squares Multi Antenna Downlink Maximum Likelihood Channel Estimation |
Link |
NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks |
Lecture 19 - Multiple Input Multiple Output MIMO Channel Estimation Least Squares Maximum Likelihood ML |
Link |
NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks |
Lecture 20 - Example Least Squares Multiple Input Multiple Output MIMO Channel Estimation |
Link |
NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks |
Lecture 21 - Channel Equalization and Inter Symbol Interference ISI Model |
Link |
NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks |
Lecture 22 - Least Squares based Zero Forcing Channel Equalizer |
Link |
NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks |
Lecture 23 - Example of ISI Channel and Least Squares based Zero Forcing |
Link |
NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks |
Lecture 24 - Equalization and Approximation Error for Zero Forcing Channel Equalizer |
Link |
NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks |
Lecture 25 - Example Equalization and Approximation Error for Zero Forcing Channel Equalizer |
Link |
NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks |
Lecture 26 - Introduction to Orthogonal Frequency Division Multiplexing OFDM Cyclic Prefix CP and Circular Convolution |
Link |
NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks |
Lecture 27 - Introduction to Orthogonal Frequency Division Multiplexing OFDM FFT at Receiver and Flat Fading |
Link |
NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks |
Lecture 28 - Channel Estimation Across Each Subcarrier in Orthogonal Frequency Division Multiplexing OFDM |
Link |
NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks |
Lecture 29 - Example Orthogonal Frequency Division Mulltiplexing OFDM Transmission of Samples with Cyclic Prefix |
Link |
NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks |
Lecture 30 - Example Orthogonal Frequency Division Mulltiplexing OFDM FFT at Receiver and Channel Estimation |
Link |
NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks |
Lecture 31 - Comb Type Pilot CTP Based Orthogonal Frequency Division Multiplexing OFDM Channel Estimation |
Link |
NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks |
Lecture 32 - Comb Type Pilot CTP Based Orthogonal Frequency Division Multiplexing OFDM Channel Estimation |
Link |
NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks |
Lecture 33 - Example Comb Type Pilot CTP Based Orthogonal Frequency Division Multiplexing OFDM Channel |
Link |
NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks |
Lecture 34 - Frequency Domain Equalization FDE for Inter Symbol Interference ISI Removal in Wireless System |
Link |
NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks |
Lecture 35 - Example Frequency Domain Equalization FDE for Inter Symbol Interference ISI Removal in Wireless Channels |
Link |
NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks |
Lecture 36 - Example Frequency Domain Equalization FDE for Inter Symbol Interference ISI Removal in Wireless Channels |
Link |
NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks |
Lecture 37 - Introduction to Sequential Estimation Application in Wireless Channel Estimation |
Link |
NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks |
Lecture 38 - Sequential Estimation of Wireless Channel Coefficient Estimate and Variance Update Equation |
Link |
NOC:Estimation for Wireless Communications, MIMO, OFDM Cellular and Sensor Networks |
Lecture 39 - Example Sequential Estimation of Wireless Channel Coefficient |
Link |
NOC:Error Control Coding - An Introduction to Convolutional Codes |
Lecture 1 - Introduction to Error Coding - I |
Link |
NOC:Error Control Coding - An Introduction to Convolutional Codes |
Lecture 2 - Introduction to Error Coding - II |
Link |
NOC:Error Control Coding - An Introduction to Convolutional Codes |
Lecture 3 - Introduction to Error Control Coding - III |
Link |
NOC:Error Control Coding - An Introduction to Convolutional Codes |
Lecture 4 - Introduction to Convolutional Codes - I: Encoding |
Link |
NOC:Error Control Coding - An Introduction to Convolutional Codes |
Lecture 5 - Introduction to Convolutional Codes - II: State Diagram, Trellis Diagram |
Link |
NOC:Error Control Coding - An Introduction to Convolutional Codes |
Lecture 6 - Convolutional Codes: Classification, Realization |
Link |
NOC:Error Control Coding - An Introduction to Convolutional Codes |
Lecture 7 - Convolutional Codes:Distance Properties |
Link |
NOC:Error Control Coding - An Introduction to Convolutional Codes |
Lecture 8 - Decoding of Convolutional Codes - I: Viterbi Algorithm |
Link |
NOC:Error Control Coding - An Introduction to Convolutional Codes |
Lecture 9 - Decoding of Convolutional Codes - II: BCJR Algorithm |
Link |
NOC:Error Control Coding - An Introduction to Convolutional Codes |
Lecture 10 - Problem Solving Session - I |
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NOC:Error Control Coding - An Introduction to Convolutional Codes |
Lecture 11 - Problem Solving Session - II |
Link |
NOC:Error Control Coding - An Introduction to Convolutional Codes |
Lecture 12 - Performance Bounds for Convolutional Codes |
Link |
NOC:Error Control Coding - An Introduction to Convolutional Codes |
Lecture 13 - Turbo Codes |
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NOC:Error Control Coding - An Introduction to Convolutional Codes |
Lecture 14 - Turbo Decoding |
Link |
NOC:Error Control Coding - An Introduction to Convolutional Codes |
Lecture 15 - Convergence of Turbo Codes |
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NOC:Error Control Coding - An Introduction to Convolutional Codes |
Lecture 16 - Applications of Convolutional Codes |
Link |
NOC:Error Control Coding - An Introduction to Convolutional Codes |
Lecture 17 - Problem Solving Sessions - III |
Link |
NOC:Error Control Coding - An Introduction to Linear Block code |
Lecture 1 - Introduction to Error Control Coding - I |
Link |
NOC:Error Control Coding - An Introduction to Linear Block code |
Lecture 2 - Introduction to Error Control Coding - II |
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NOC:Error Control Coding - An Introduction to Linear Block code |
Lecture 3 - Introduction to Error Control Coding - III |
Link |
NOC:Error Control Coding - An Introduction to Linear Block code |
Lecture 4 - Introduction to Linear Block Codes, Generator Matrix and Parity Check Matrix |
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NOC:Error Control Coding - An Introduction to Linear Block code |
Lecture 5 - Syndrome, Error Correction and Error Detection |
Link |
NOC:Error Control Coding - An Introduction to Linear Block code |
Lecture 6 - Problem Solving Session - I |
Link |
NOC:Error Control Coding - An Introduction to Linear Block code |
Lecture 7 - Decoding of Linear Block Codes |
Link |
NOC:Error Control Coding - An Introduction to Linear Block code |
Lecture 8 - Distance Properties of Linear Block Codes - I |
Link |
NOC:Error Control Coding - An Introduction to Linear Block code |
Lecture 9 - Distance Properties of Linear Block Codes - II |
Link |
NOC:Error Control Coding - An Introduction to Linear Block code |
Lecture 10 - Problem Solving Session - II |
Link |
NOC:Error Control Coding - An Introduction to Linear Block code |
Lecture 11 - Some Simple Linear Block Codes - I |
Link |
NOC:Error Control Coding - An Introduction to Linear Block code |
Lecture 12 - Some Simple Linear Block Codes - II: Reed Muller Codes |
Link |
NOC:Error Control Coding - An Introduction to Linear Block code |
Lecture 13 - Bounds on the Size of a Code |
Link |
NOC:Error Control Coding - An Introduction to Linear Block code |
Lecture 14 - Problem Solving Session - III |
Link |
NOC:Error Control Coding - An Introduction to Linear Block code |
Lecture 15 - Low Density Parity Check Codes |
Link |
NOC:Error Control Coding - An Introduction to Linear Block code |
Lecture 16 - Decoding of Low Density Parity Check Codes - I |
Link |
NOC:Error Control Coding - An Introduction to Linear Block code |
Lecture 17 - Decoding of Low Density Parity Check Codes - II: Belief Propagation Algorithm |
Link |
NOC:Error Control Coding - An Introduction to Linear Block code |
Lecture 18 - Applications of Linear Block Codes |
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NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks |
Lecture 1 - Basics Introduction to Bayesian Minimum Mean Squared Error |
Link |
NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks |
Lecture 2 - Optimal Bayesian Minimum Mean Squared Error (MMSE) Estimate |
Link |
NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks |
Lecture 3 - Derivation of Minimum Mean Squared Error MMSE Estimate for Gaussian Parameter Part I |
Link |
NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks |
Lecture 4 - Derivation of Minimum Mean Squared Error MMSE Estimate for Gaussian Parameter Part II |
Link |
NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks |
Lecture 5 - Derivation of Minimum Mean Squared Error (MMSE) Estimate for Gaussian Parameter Non-Zero Mean and Vector Parameter / Observation |
Link |
NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks |
Lecture 6 - Minimum Mean Squared Error MMSE Estimation Application Wireless Sensor Network |
Link |
NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks |
Lecture 7 - Simplification and Example of Minimum Mean Squared Error MMSE Estimate for Wireless Sensor Networks |
Link |
NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks |
Lecture 8 - Minimum Mean Squared Error MMSE Estimation Application Wireless Fading Channel Estimation |
Link |
NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks |
Lecture 9 - Simplification and Example of Minimum Mean Squared Error MMSE Estimate for Wireless Fading Channel |
Link |
NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks |
Lecture 10 - Minimum Mean Squared Error MMSE for Wireless Sensor Network WSN Derivation and Example |
Link |
NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks |
Lecture 11 - Reliability of Minimum Mean Squared Error MMSE Estimate Part I |
Link |
NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks |
Lecture 12 - Reliability of Minimum Mean Squared Error MMSE Estimate Part II |
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NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks |
Lecture 13 - Minimum Mean Squared Error MMSE for Wireless Fading Channel Estimation Derivation |
Link |
NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks |
Lecture 14 - Minimum Mean Squared Error (MMSE) for Wireless Fading Channel Estimation Example and Properties of Complex Channel Coefficient Estimate |
Link |
NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks |
Lecture 15 - Linear Minimum Mean Squared Error LMMSE Estimate Derivation Part I |
Link |
NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks |
Lecture 16 - Linear Minimum Mean Squared Error LMMSE Estimate Derivation Part II |
Link |
NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks |
Lecture 17 - Vector Parameter Estimation System Model for Multi-Antenna Downlink Channel Estimation |
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NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks |
Lecture 18 - Linear Minimum Mean Squared Error LMMSE Estimate for Multi Antenna Downlink Wireless Channel - Part I |
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NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks |
Lecture 19 - Linear Minimum Mean Squared Error LMMSE Estimate for Multi Antenna Downlink Wireless Channel - Part II |
Link |
NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks |
Lecture 20 - Example of Linear Minimum Mean Squared Error LMMSE Estimation for Multi Antenna Downlink Wireless Channel |
Link |
NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks |
Lecture 21 - Derivation and Example of Error Covariance of Multi Antenna LMMSE Channel Estimation |
Link |
NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks |
Lecture 22 - System Model for Multiple Input Multiple Output MIMO Downlink Wireless Channel Estimation |
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NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks |
Lecture 23 - Channel/ Noise Statistics for Multiple-Input Multiple-Output (MIMO) Downlink Wireless Channel Estimation |
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NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks |
Lecture 24 - LMMSE/ MMSE Estimation for Multiple-Input Multiple-Output(MIMO) Downlink Wireless Channel Estimation |
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NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks |
Lecture 25 - Example of LMMSE/ MMSE Estimation for Multiple-Input Multiple-Output (MIMO) Downlink Wireless Channel Estimation |
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NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks |
Lecture 26 - Introduction and system model for equalization |
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NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks |
Lecture 27 - Linear Minimum Mean Square Error (LMMSE) Channel Equalization |
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NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks |
Lecture 28 - Error for LMMSE Channel Equalizer and Example of LMMSE Channel Equalization |
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NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks |
Lecture 29 - Example of Linear Minimum Mean Square Error (LMMSE) Channel Equalization |
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NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks |
Lecture 30 - Introduction and system model for OFDM |
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NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks |
Lecture 31 - System model for OFDMl, IFFT/ FFT Operations |
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NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks |
Lecture 32 - LMMSE Estimation for OFDM |
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NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks |
Lecture 33 - Estimate and Error variance of LMMSE Estimate |
Link |
NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks |
Lecture 34 - Example of OFDM |
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NOC:Bayesian, MMSE Estimation for Wireless Communications MIMO, OFDM Cellular and Sensor Networks |
Lecture 35 - Example of LMMSE estimate and Error variance for OFDM |
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NOC:Optical communications |
Lecture 1 - Overview of Fiber-optic communications |
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NOC:Optical communications |
Lecture 2 - Optical Transmitter - I |
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NOC:Optical communications |
Lecture 3 - Optical Transmitter - I (Continued...) |
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NOC:Optical communications |
Lecture 4 - Optical Transmitter - II |
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NOC:Optical communications |
Lecture 5 - Optical Transmitter - II (Continued...) |
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NOC:Optical communications |
Lecture 6 - Intensity modulation |
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NOC:Optical communications |
Lecture 7 - Review of Signals and Representations - I |
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NOC:Optical communications |
Lecture 8 - Review of Signals and Representations - II |
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NOC:Optical communications |
Lecture 9 - Digital Modulation - I |
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NOC:Optical communications |
Lecture 10 - Review of Signals and Representations - III |
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NOC:Optical communications |
Lecture 11 - Review of Signals and Representations - IV |
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NOC:Optical communications |
Lecture 12 - Digital Modulation - II |
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NOC:Optical communications |
Lecture 13 - Digital Modulation - II (Continued...) |
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NOC:Optical communications |
Lecture 14 - Digital Modulation - III |
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NOC:Optical communications |
Lecture 15 - Optical receivers - I |
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NOC:Optical communications |
Lecture 16 - Optical receivers - II |
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NOC:Optical communications |
Lecture 17 - Optical Modulator : Physical Structure |
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NOC:Optical communications |
Lecture 18 - Propagation of Electromagnetic wave |
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NOC:Optical communications |
Lecture 19 - Review of EM Theory |
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NOC:Optical communications |
Lecture 20 - Reflection of Waves |
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NOC:Optical communications |
Lecture 21 - Optical fiber - I |
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NOC:Optical communications |
Lecture 22 - Optical fiber - II |
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NOC:Optical communications |
Lecture 23 - Modes in Optical fiber - I |
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NOC:Optical communications |
Lecture 24 - Modes in Optical fiber - I (Continued...) |
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NOC:Optical communications |
Lecture 25 - Modes in Optical fiber - II |
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NOC:Optical communications |
Lecture 26 - Dispersion in Fibers |
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NOC:Optical communications |
Lecture 27 - Dispersion in Fibers (Continued...) |
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NOC:Optical communications |
Lecture 28 - Wrapping up fiber parameters |
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NOC:Optical communications |
Lecture 29 - System Design - I |
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NOC:Optical communications |
Lecture 30 - Passive WDM components - I |
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NOC:Optical communications |
Lecture 31 - Passive WDM components - II |
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NOC:Optical communications |
Lecture 32 - Detection of light |
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NOC:Optical communications |
Lecture 33 - Detection of light (Continued...) |
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NOC:Optical communications |
Lecture 34 - Response time and Noise in Detectors |
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NOC:Optical communications |
Lecture 35 - Noise in photodiodes - I Edit Lesson |
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NOC:Optical communications |
Lecture 36 - Noise in photodiodes - II |
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NOC:Optical communications |
Lecture 37 - Light sources - I |
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NOC:Optical communications |
Lecture 38 - Light sources - II Edit Lesson |
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NOC:Optical communications |
Lecture 39 - Semiconductor laser diodes |
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NOC:Optical communications |
Lecture 40 - Optical communication:Pulse shape and BW |
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NOC:Optical communications |
Lecture 41 - Power spectral density |
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NOC:Optical communications |
Lecture 42 - Power spectral density (Continued...) |
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NOC:Optical communications |
Lecture 43 - Advantage of coherent receiver |
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NOC:Optical communications |
Lecture 44 - Dispersion induced limitations |
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NOC:Optical communications |
Lecture 45 - Optical amplifiers - I |
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NOC:Optical communications |
Lecture 46 - Optical amplifiers - II |
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NOC:Optical communications |
Lecture 47 - Noise in optical amplifiers |
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NOC:Optical communications |
Lecture 48 - Noise in optical amplifiers (Continued...) |
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NOC:Optical communications |
Lecture 49 - ASE induced limitations |
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NOC:Optical communications |
Lecture 50 - Determining BER in OOK system |
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NOC:Optical communications |
Lecture 51 - BER determination |
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NOC:Optical communications |
Lecture 52 - Eye diagram and Higher modulation techniques Edit Lesson |
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NOC:Optical communications |
Lecture 53 - Higher modulation techniques (Continued...) |
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NOC:Optical communications |
Lecture 54 - Optical OFDM |
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NOC:Digital Switching-I |
Lecture 1 - Introduction to Telephony and Networks |
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NOC:Digital Switching-I |
Lecture 2 - Strowger Automatic Exchange |
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NOC:Digital Switching-I |
Lecture 3 - Crossbar Switching |
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NOC:Digital Switching-I |
Lecture 4 - Logic Circuit for Crosspoint Operation |
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NOC:Digital Switching-I |
Lecture 5 - Introduction to Multistage Interconnection Networks |
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NOC:Digital Switching-I |
Lecture 6 - Blocking probability of crossbar switches |
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NOC:Digital Switching-I |
Lecture 7 - Call congestion and time congestio |
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NOC:Digital Switching-I |
Lecture 8 - Clos network |
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NOC:Digital Switching-I |
Lecture 9 - Lee's approximation |
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NOC:Digital Switching-I |
Lecture 10 - Karnaugh's approximation |
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NOC:Digital Switching-I |
Lecture 11 - Time switch |
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NOC:Digital Switching-I |
Lecture 12 - Time switch and Clos network |
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NOC:Digital Switching-I |
Lecture 13 - TST switch, Strictly Non-blocking network, Rearrangeably non-blocking network |
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NOC:Digital Switching-I |
Lecture 14 - Paull's Matrix |
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NOC:Digital Switching-I |
Lecture 15 - f-way multicasting |
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NOC:Digital Switching-I |
Lecture 16 - Strictly sense non blocking multicasting switch |
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NOC:Digital Switching-I |
Lecture 17 - Rearrangeably non blocking networks |
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NOC:Digital Switching-I |
Lecture 18 - Slepian Duguid theorem, Paull's theorem |
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NOC:Digital Switching-I |
Lecture 19 - Paull's matrix for rearrangeabbly non blocking networks |
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NOC:Digital Switching-I |
Lecture 20 - Recursive construction; Crosspoint complexity for rearrangebly and strictly non-blocking networks |
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NOC:Digital Switching-I |
Lecture 21 - Cantor network |
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NOC:Digital Switching-I |
Lecture 22 - Wide-sense non blocking network |
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NOC:Digital Switching-I |
Lecture 23 - Example of wide -sense non-blocking switch |
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NOC:Digital Switching-I |
Lecture 24 - Packet Switching |
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NOC:Digital Switching-I |
Lecture 25 - Buffering strategies |
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NOC:Digital Switching-I |
Lecture 26 - Output Queued Switch |
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NOC:Digital Switching-I |
Lecture 27 - Input Queued Switch |
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NOC:Digital Switching-I |
Lecture 28 - Banyan Network, Delta Network |
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NOC:Digital Switching-I |
Lecture 29 - Shufflenet as Delta network |
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NOC:Digital Switching-I |
Lecture 30 - Performance analysis of crossbar and delta network |
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NOC:Digital Switching-I |
Lecture 31 - Properties of Delta Network |
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NOC:Digital Switching-I |
Lecture 32 - Buffered and Unbuffered Delta network |
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NOC:Digital Switching-I |
Lecture 33 - Analysis of Buffered Delta Network - 1 of 3 |
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NOC:Digital Switching-I |
Lecture 34 - Analysis of Buffered Delta Network - 2 of 3 |
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NOC:Digital Switching-I |
Lecture 35 - Analysis of Buffered Delta Network - 3 of 3 |
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NOC:An Introduction to Information Theory |
Lecture 1 - Introduction |
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NOC:An Introduction to Information Theory |
Lecture 2 - Measure of Information |
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NOC:An Introduction to Information Theory |
Lecture 3 - Information Inequalities |
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NOC:An Introduction to Information Theory |
Lecture 4 - Problem solving session - I |
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NOC:An Introduction to Information Theory |
Lecture 5 - Block to Variable Length Coding - I : Prefix-free code |
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NOC:An Introduction to Information Theory |
Lecture 6 - Block to Variable Length Coding - II : Bounds on Optimal Code Length |
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NOC:An Introduction to Information Theory |
Lecture 7 - Block to Variable Length Coding - III : Huffman Coding |
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NOC:An Introduction to Information Theory |
Lecture 8 - Variable to block length coding |
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NOC:An Introduction to Information Theory |
Lecture 9 - The asymptotic equipartition property |
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NOC:An Introduction to Information Theory |
Lecture 10 - Block to block coding of DMS |
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NOC:An Introduction to Information Theory |
Lecture 11 - Problem solving session - II |
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NOC:An Introduction to Information Theory |
Lecture 12 - Universal Source Coding - I : Lempel-Ziv Algorithm-LZ77 |
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NOC:An Introduction to Information Theory |
Lecture 13 - Universal source coding - II : Lempel-Ziv Welch Algorithm (LZW) |
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NOC:An Introduction to Information Theory |
Lecture 14 - Coding of sources with memory |
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NOC:An Introduction to Information Theory |
Lecture 15 - Channel Capacity |
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NOC:An Introduction to Information Theory |
Lecture 16 - Joint typical sequences |
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NOC:An Introduction to Information Theory |
Lecture 17 - Noisy channel coding theorem |
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NOC:An Introduction to Information Theory |
Lecture 18 - Differential entropy |
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NOC:An Introduction to Information Theory |
Lecture 19 - Gaussian channel |
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NOC:An Introduction to Information Theory |
Lecture 20 - Parallel Gaussian channel |
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NOC:An Introduction to Information Theory |
Lecture 21 - Problem solving session - III |
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NOC:An Introduction to Information Theory |
Lecture 22 - Rate distortion theory |
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NOC:An Introduction to Information Theory |
Lecture 23 - Blahut-Arimoto Algorithm |
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NOC:An Introduction to Information Theory |
Lecture 24 - Problem solving session - IV |
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NOC:5G Wireless Standard Design |
Lecture 1 - Course Introduction |
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NOC:5G Wireless Standard Design |
Lecture 2 - Key 5G Technologies - Adaptive Modulation and Coding (AMC) |
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NOC:5G Wireless Standard Design |
Lecture 3 - Key 5G Technologies - Hybrid automatic repeat request (HARQ) |
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NOC:5G Wireless Standard Design |
Lecture 4 - Key 5G Technologies - Orthogonal frequency division multiplexing (OFDM) |
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NOC:5G Wireless Standard Design |
Lecture 5 - 5G Numerology |
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NOC:5G Wireless Standard Design |
Lecture 6 - 5G frame structure |
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NOC:5G Wireless Standard Design |
Lecture 7 - 5G physical downlink shared channel (PDSCH) transmit chain- CRC generation |
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NOC:5G Wireless Standard Design |
Lecture 8 - 5G PDSCH transmit chain - code block segmentation – Part I |
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NOC:5G Wireless Standard Design |
Lecture 9 - 5G PDSCH transmit chain - LDPC coding |
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NOC:5G Wireless Standard Design |
Lecture 10 - 5G PDSCH transmit chain - code block segmentation – Part II |
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NOC:5G Wireless Standard Design |
Lecture 11 - 5G PDSCH transmit chain - rate matching – Part I |
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NOC:5G Wireless Standard Design |
Lecture 12 - 5G PDSCH transmit chain - rate matching – Part II |
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NOC:5G Wireless Standard Design |
Lecture 13 - 5G PDSCH transmit chain - interleaving and concatenation |
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NOC:5G Wireless Standard Design |
Lecture 14 - 5G PDSCH transmit chain - scrambling and modulation |
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NOC:5G Wireless Standard Design |
Lecture 15 - 5G PDSCH transmit chain - recap |
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NOC:5G Wireless Standard Design |
Lecture 16 - 5G PDSCH receive chain - Part I |
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NOC:5G Wireless Standard Design |
Lecture 17 - 5G PDSCH receive chain - Part II |
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NOC:5G Wireless Standard Design |
Lecture 18 - 5G PDSCH - map receiver design - Part I |
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NOC:5G Wireless Standard Design |
Lecture 19 - 5G PDSCH - map receiver design - Part II |
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NOC:5G Wireless Standard Design |
Lecture 20 - 5G baseband - RF conversion |
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NOC:5G Wireless Standard Design |
Lecture 21 - Indigenous 5G network architecture |
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NOC:5G Wireless Standard Design |
Lecture 22 - 5G physical downlink control channel (PDCCH) transmit chain - introduction |
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NOC:5G Wireless Standard Design |
Lecture 23 - 5G PDCCH transmit chain - CRC and segmentation |
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NOC:5G Wireless Standard Design |
Lecture 24 - 5G PDCCH transmit chain - Polar encoding |
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NOC:5G Wireless Standard Design |
Lecture 25 - 5G PDCCH transmit chain - CRC interleaver |
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NOC:5G Wireless Standard Design |
Lecture 26 - 5G PDCCH transmit chain - sub-block interleaver |
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NOC:5G Wireless Standard Design |
Lecture 27 - 5G PDCCH transmit chain - rate matching |
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NOC:5G Wireless Standard Design |
Lecture 28 - 5G PDCCH transmit chain - control resource set (CORESET) design – Part I |
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NOC:5G Wireless Standard Design |
Lecture 29 - 5G PDCCH transmit chain - CORESET design – Part II |
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NOC:5G Wireless Standard Design |
Lecture 30 - 5G PDCCH transmit chain - CORESET design – Part III |
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NOC:5G Wireless Standard Design |
Lecture 31 - 5G PDCCH transmit chain - CORESET design – Part IV |
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NOC:5G Wireless Standard Design |
Lecture 32 - 5G physical uplink control channel (PUCCH) - Part I |
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NOC:5G Wireless Standard Design |
Lecture 33 - 5G physical uplink control channel (PUCCH) - Part II |
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NOC:5G Wireless Standard Design |
Lecture 34 - Multiple input multiple output (MIMO) transceiver chain - Part I |
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NOC:5G Wireless Standard Design |
Lecture 35 - MIMO transceiver chain - Part II |
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NOC:5G Wireless Standard Design |
Lecture 36 - MIMO transceiver chain - Part III |
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NOC:5G Wireless Standard Design |
Lecture 37 - MIMO transceiver chain - Part IV |
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NOC:5G Wireless Standard Design |
Lecture 38 - MIMO transceiver chain - Part V |
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NOC:5G Wireless Standard Design |
Lecture 39 - MIMO transceiver chain - Part VI |
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NOC:5G Wireless Standard Design |
Lecture 40 - MIMO transceiver chain - Part VII |
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NOC:5G Wireless Standard Design |
Lecture 41 - 5G demodulation reference signal (DM-RS) design - Part I |
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NOC:5G Wireless Standard Design |
Lecture 42 - 5G DM-RS design - Part II |
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NOC:5G Wireless Standard Design |
Lecture 43 - 5G DM-RS design - Part III |
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NOC:5G Wireless Standard Design |
Lecture 44 - 5G DM-RS design - Part IV |
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NOC:5G Wireless Standard Design |
Lecture 45 - 5G sounding reference signal (SRS) design - Part I |
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NOC:5G Wireless Standard Design |
Lecture 46 - 5G SRS design - Part II |
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NOC:5G Wireless Standard Design |
Lecture 47 - 5G SRS design - Part III |
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NOC:5G Wireless Standard Design |
Lecture 48 - 5G SRS design - Part IV |
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NOC:5G Wireless Standard Design |
Lecture 49 - 5G SRS design - Part V |
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NOC:5G Wireless Standard Design |
Lecture 50 - 5G channel state estimation reference signal (CSI-RS) - Part I |
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NOC:5G Wireless Standard Design |
Lecture 51 - 5G CSI-RS - Part II |
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NOC:5G Wireless Standard Design |
Lecture 52 - 5G MIMO transceiver chain - Part I |
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NOC:5G Wireless Standard Design |
Lecture 53 - 5G MIMO transceiver chain - Part II |
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NOC:5G Wireless Standard Design |
Lecture 54 - 5G MIMO codebook design - Part I |
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NOC:5G Wireless Standard Design |
Lecture 55 - 5G MIMO codebook design - Part II |
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NOC:5G Wireless Standard Design |
Lecture 56 |
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NOC:5G Wireless Standard Design |
Lecture 57 |
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NOC:5G Wireless Standard Design |
Lecture 58 |
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NOC:5G Wireless Standard Design |
Lecture 59 |
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NOC:5G Wireless Standard Design |
Lecture 60 |
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Adaptive Signal Processing |
Lecture 1 - Introduction to Adaptive Filters |
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Adaptive Signal Processing |
Lecture 2 - Introduction to Stochastic Processes |
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Adaptive Signal Processing |
Lecture 3 - Stochastic Processes |
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Adaptive Signal Processing |
Lecture 4 - Correlation Structure |
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Adaptive Signal Processing |
Lecture 5 - FIR Wiener Filter (Real) |
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Adaptive Signal Processing |
Lecture 6 - Steepest Descent Technique |
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Adaptive Signal Processing |
Lecture 7 - LMS Algorithm |
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Adaptive Signal Processing |
Lecture 8 - Convergence Analysis |
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Adaptive Signal Processing |
Lecture 9 - Convergence Analysis (Mean Square) |
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Adaptive Signal Processing |
Lecture 10 - Convergence Analysis (Mean Square) |
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Adaptive Signal Processing |
Lecture 11 - Misadjustment and Excess MSE |
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Adaptive Signal Processing |
Lecture 12 - Misadjustment and Excess MSE |
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Adaptive Signal Processing |
Lecture 13 - Sign LMS Algorithm |
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Adaptive Signal Processing |
Lecture 14 - Block LMS Algorithm |
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Adaptive Signal Processing |
Lecture 15 - Fast Implementation of Block LMS Algorithm |
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Adaptive Signal Processing |
Lecture 16 - Fast Implementation of Block LMS Algorithm |
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Adaptive Signal Processing |
Lecture 17 - Vector Space Treatment to Random Variables |
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Adaptive Signal Processing |
Lecture 18 - Vector Space Treatment to Random Variables |
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Adaptive Signal Processing |
Lecture 19 - Orthogonalization and Orthogonal Projection |
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Adaptive Signal Processing |
Lecture 20 - Orthogonal Decomposition of Signal Subspaces |
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Adaptive Signal Processing |
Lecture 21 - Introduction to Linear Prediction |
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Adaptive Signal Processing |
Lecture 22 - Lattice Filter |
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Adaptive Signal Processing |
Lecture 23 - Lattice Recursions |
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Adaptive Signal Processing |
Lecture 24 - Lattice as Optimal Filter |
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Adaptive Signal Processing |
Lecture 25 - Linear Prediction and Autoregressive Modeling |
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Adaptive Signal Processing |
Lecture 26 - Gradient Adaptive Lattice |
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Adaptive Signal Processing |
Lecture 27 - Gradient Adaptive Lattice |
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Adaptive Signal Processing |
Lecture 28 - Introduction to Recursive Least Squares |
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Adaptive Signal Processing |
Lecture 29 - RLS Approach to Adaptive Filters |
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Adaptive Signal Processing |
Lecture 30 - RLS Adaptive Lattice |
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Adaptive Signal Processing |
Lecture 31 - RLS Lattice Recursions |
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Adaptive Signal Processing |
Lecture 32 - RLS Lattice Recursions |
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Adaptive Signal Processing |
Lecture 33 - RLS Lattice Algorithm |
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Adaptive Signal Processing |
Lecture 34 - RLS Using QR Decomposition |
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Adaptive Signal Processing |
Lecture 35 - Givens Rotation |
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Adaptive Signal Processing |
Lecture 36 - Givens Rotation and QR Decomposition |
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Adaptive Signal Processing |
Lecture 37 - Systolic Implementation |
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Adaptive Signal Processing |
Lecture 38 - Systolic Implementation |
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Adaptive Signal Processing |
Lecture 39 - Singular Value Decomposition |
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Adaptive Signal Processing |
Lecture 40 - Singular Value Decomposition |
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Adaptive Signal Processing |
Lecture 41 - Singular Value Decomposition |
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Digital Computer Organization |
Lecture 1 - Introduction to Digital Computer Organization |
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Digital Computer Organization |
Lecture 2 - CPU Design - I |
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Digital Computer Organization |
Lecture 3 - CPU Design - II |
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Digital Computer Organization |
Lecture 4 - CPU Design Tirning and Control |
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Digital Computer Organization |
Lecture 5 - Micro programmed Control - I |
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Digital Computer Organization |
Lecture 6 - Micro programmed Control - II |
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Digital Computer Organization |
Lecture 7 - Pipeline Concept - I |
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Digital Computer Organization |
Lecture 8 - Pipeline Concept - II |
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Digital Computer Organization |
Lecture 9 - Pipeline Concept - III |
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Digital Computer Organization |
Lecture 10 - Pipeline CPU - I |
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Digital Computer Organization |
Lecture 11 - Pipeline CPU - II |
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Digital Computer Organization |
Lecture 12 - Pipeline CPU - III |
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Digital Computer Organization |
Lecture 13 - Memory Organization - I |
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Digital Computer Organization |
Lecture 14 - Memory Organization - II |
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Digital Computer Organization |
Lecture 15 - Memory Organization - III |
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Digital Computer Organization |
Lecture 16 - Memory Organization - IV |
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Digital Computer Organization |
Lecture 17 - Memory Organization - V |
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Digital Computer Organization |
Lecture 18 - Cache Memory Architecture |
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Digital Computer Organization |
Lecture 19 - Cache Memory Architecture RAM Architecture |
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Digital Computer Organization |
Lecture 20 - RAM Architecture |
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Digital Computer Organization |
Lecture 21 - DAM Architecture-1 |
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Digital Computer Organization |
Lecture 22 - DAM Architecture Buffer Cache |
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Digital Computer Organization |
Lecture 23 - Buffer Cache |
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Digital Computer Organization |
Lecture 24 - Secondary Storage Organization - I |
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Digital Computer Organization |
Lecture 25 - Secondary Storage Organization - II |
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Digital Computer Organization |
Lecture 26 - Secondary Storage Organization - III |
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Digital Computer Organization |
Lecture 27 - I/O Subsystem Organization |
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Digital Computer Organization |
Lecture 28 - Error Detection and Correction |
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Digital Image Processing |
Lecture 1 - Introduction |
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Digital Image Processing |
Lecture 2 - Image Digitization - I |
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Digital Image Processing |
Lecture 3 - Image Digitization - II |
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Digital Image Processing |
Lecture 4 - Pixels Relationships - I |
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Digital Image Processing |
Lecture 5 - Pixels Relationships - II |
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Digital Image Processing |
Lecture 6 - Basic Transformations |
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Digital Image Processing |
Lecture 7 - Camera Model and Imaging Geometry |
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Digital Image Processing |
Lecture 8 - Camera Calibration and Stereo Imaging |
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Digital Image Processing |
Lecture 9 - Interpolation and Resampling |
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Digital Image Processing |
Lecture 10 - Image Interpolation - II |
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Digital Image Processing |
Lecture 11 - Image Interpolation - I |
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Digital Image Processing |
Lecture 12 - Image Transformation - II |
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Digital Image Processing |
Lecture 13 - Fourier Transformation - I |
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Digital Image Processing |
Lecture 14 - Fourier Transformation - II |
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Digital Image Processing |
Lecture 15 - Discrete Cosine Transform |
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Digital Image Processing |
Lecture 16 - K-L Transform |
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Digital Image Processing |
Lecture 17 - Image Enhancement |
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Digital Image Processing |
Lecture 18 - Image Enhancement |
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Digital Image Processing |
Lecture 19 - Image Enhancement |
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Digital Image Processing |
Lecture 20 - Image Enhancement |
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Digital Image Processing |
Lecture 21 - Image Enhancement Frequency |
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Digital Image Processing |
Lecture 22 - Image Restoration - I |
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Digital Image Processing |
Lecture 23 - Image Restoration - II |
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Digital Image Processing |
Lecture 24 - Image Restoration - III |
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Digital Image Processing |
Lecture 25 - Image Registration |
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Digital Image Processing |
Lecture 26 - Colour Image Processing - I |
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Digital Image Processing |
Lecture 27 - Colour Image Processing - II |
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Digital Image Processing |
Lecture 28 - Colour Image Processing - III |
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Digital Image Processing |
Lecture 29 - Image Segmentation - I |
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Digital Image Processing |
Lecture 30 - Image Segmentation - II |
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Digital Image Processing |
Lecture 31 - Image Segmentation - III |
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Digital Image Processing |
Lecture 32 - Image Segmentation - IV |
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Digital Image Processing |
Lecture 33 - Mathematical Morphology - I |
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Digital Image Processing |
Lecture 34 - Mathematical Morphology - II |
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Digital Image Processing |
Lecture 35 - Mathematical Morphology - III |
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Digital Image Processing |
Lecture 36 - Mathematical Morphology - IV |
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Digital Image Processing |
Lecture 37 - Object Representation and Description - I |
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Digital Image Processing |
Lecture 38 - Object Representation and Description - II |
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Digital Image Processing |
Lecture 39 - Object Representation and Description - III |
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Digital Image Processing |
Lecture 40 - Object Recognition |
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Digital Systems Design |
Lecture 1 - Introduction to Digital Systems Design |
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Digital Systems Design |
Lecture 2 - Introduction |
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Digital Systems Design |
Lecture 3 - Digital Logic - I |
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Digital Systems Design |
Lecture 4 - Digital Logic - II |
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Digital Systems Design |
Lecture 5 - Digital Logic - III |
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Digital Systems Design |
Lecture 6 - Boolean Algebra |
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Digital Systems Design |
Lecture 7 - Boolean Algebra |
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Digital Systems Design |
Lecture 8 - Boolean Function Minimization |
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Digital Systems Design |
Lecture 9 - Boolean Function Minimization |
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Digital Systems Design |
Lecture 10 - Boolean Function Minimization |
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Digital Systems Design |
Lecture 11 - Hazzard Covers by K - Map |
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Digital Systems Design |
Lecture 12 - Combinational Circuit Design |
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Digital Systems Design |
Lecture 13 - Design of ADDER Circuits |
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Digital Systems Design |
Lecture 14 - Design of Subtractor Circuits |
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Digital Systems Design |
Lecture 15 - Digital of Common Digital Elements |
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Digital Systems Design |
Lecture 16 - Design of Complex Combinational Circuits |
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Digital Systems Design |
Lecture 17 - Design of Combinational Circuits |
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Digital Systems Design |
Lecture 18 - Combinational Logic Problem Design |
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Digital Systems Design |
Lecture 19 - Combinational Logic Design |
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Digital Systems Design |
Lecture 20 - Logic Design with PLA |
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Digital Systems Design |
Lecture 21 - Synchronous Sequential Circuit Design |
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Digital Systems Design |
Lecture 22 - Design of Sequential Modules |
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Digital Systems Design |
Lecture 23 - Design of Registers and Counter |
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Digital Systems Design |
Lecture 24 - Finite State Machine Design |
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Digital Systems Design |
Lecture 25 - Finite State Machine Design and Optimization |
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Digital Systems Design |
Lecture 26 - Programmable Logic Devices |
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Digital Systems Design |
Lecture 27 - Programmable Logic Devices |
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Digital Systems Design |
Lecture 28 - Programmable Logic Devices |
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Digital Systems Design |
Lecture 29 - Design of Arithmetic Circuits |
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Digital Systems Design |
Lecture 30 - Design of Arithmetic Circuits |
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Digital Systems Design |
Lecture 31 - Design of Memory Circuits |
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Digital Systems Design |
Lecture 32 - Algorithmic State Machines Chart |
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Digital Systems Design |
Lecture 33 - Design of Computer Instruction Set and the CPU |
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Digital Systems Design |
Lecture 34 - Design of Computer Instruction Set and the CPU |
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Digital Systems Design |
Lecture 35 - Design of Computer Instruction Set and the CPU |
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Digital Systems Design |
Lecture 36 - Design of Computer Instruction Set and the CPU |
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Digital Systems Design |
Lecture 37 - Design of Computer Instruction Set and the CPU |
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Digital Systems Design |
Lecture 38 - Design of Computer Instruction Set and the CPU |
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Digital Systems Design |
Lecture 39 - Design of a Micro Programmed CPU |
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Digital Systems Design |
Lecture 40 - Digital System Design Current State of the Art |
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Digital Voice and Picture Communication |
Lecture 1 - Introduction |
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Digital Voice and Picture Communication |
Lecture 2 - Speech Production Model |
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Digital Voice and Picture Communication |
Lecture 3 - Speech Coding : Objectives and Requirements |
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Digital Voice and Picture Communication |
Lecture 4 - Quantizers for Speech Signal |
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Digital Voice and Picture Communication |
Lecture 5 - mew - Law and Optimum Quantizer |
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Digital Voice and Picture Communication |
Lecture 6 - Adaptive Quantizer |
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Digital Voice and Picture Communication |
Lecture 7 - Differential Quantization |
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Digital Voice and Picture Communication |
Lecture 8 - LDM and ADM |
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Digital Voice and Picture Communication |
Lecture 9 - Differential PCM and Adaptive Prediction |
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Digital Voice and Picture Communication |
Lecture 10 - Linear Prediction of Speech |
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Digital Voice and Picture Communication |
Lecture 11 - Computational Aspects of LPC parameters |
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Digital Voice and Picture Communication |
Lecture 12 - Cholesky Decomposition |
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Digital Voice and Picture Communication |
Lecture 13 - Lattice Formulation of LPC Coefficient |
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Digital Voice and Picture Communication |
Lecture 14 - Linear Predictive Synthesizer |
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Digital Voice and Picture Communication |
Lecture 15 - LPC Vocoder |
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Digital Voice and Picture Communication |
Lecture 16 - Introduction to Image and Video Coding |
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Digital Voice and Picture Communication |
Lecture 17 - Lossy Image Compression : DCT |
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Digital Voice and Picture Communication |
Lecture 18 - DCT Quantization and Limitations |
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Digital Voice and Picture Communication |
Lecture 19 - Theory of Wavelets |
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Digital Voice and Picture Communication |
Lecture 20 - Discrete Wavelet Transforms |
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Digital Voice and Picture Communication |
Lecture 21 - DWT on the Images and its Encoding |
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Digital Voice and Picture Communication |
Lecture 22 - Embedded Zero Tree Wavelet Encoding |
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Digital Voice and Picture Communication |
Lecture 23 - Video Coding : Basic Building Blocks |
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Digital Voice and Picture Communication |
Lecture 24 - Motion Estimate Techniques |
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Digital Voice and Picture Communication |
Lecture 25 - Fast Motion Estimation Techniques |
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Digital Voice and Picture Communication |
Lecture 26 - Video Coding Standards |
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Digital Voice and Picture Communication |
Lecture 27 - Advanced Coding Aspects |
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Digital Voice and Picture Communication |
Lecture 28 - Audio Coding: Basic Concepts |
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Digital Voice and Picture Communication |
Lecture 29 - Audio Coding AC - 3 |
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Digital Voice and Picture Communication |
Lecture 30 - AC -3 Decoder |
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Digital Voice and Picture Communication |
Lecture 31 - MPEG - 1 Audio Coding |
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Digital Voice and Picture Communication |
Lecture 32 - Introduction to VoIP |
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Digital Voice and Picture Communication |
Lecture 33 - VoIP Signaling : H.323 Protocol |
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Digital Voice and Picture Communication |
Lecture 34 - H.323 Call Controls and Enhancements |
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Digital Voice and Picture Communication |
Lecture 35 - Interworking with PSTN Limitations and Solution |
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Digital Voice and Picture Communication |
Lecture 36 - Multiplexing Schemes |
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Digital Voice and Picture Communication |
Lecture 37 - H.323:Multiplexing:Header Compression and BW |
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Digital Voice and Picture Communication |
Lecture 38 - ISDN Video Conferencing |
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Digital Voice and Picture Communication |
Lecture 39 - Video Conferencing : SIP Protocol |
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Digital Voice and Picture Communication |
Lecture 40 - 4G Multimedia Conferencing |
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MEMS and Microsystems |
Lecture 1 - Introduction to MEMS & Microsystems |
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MEMS and Microsystems |
Lecture 2 - Introduction to Microsensors |
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MEMS and Microsystems |
Lecture 3 - Evaluation of MEMS, Microsensors, Market Survey |
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MEMS and Microsystems |
Lecture 4 - Application of MEMS |
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MEMS and Microsystems |
Lecture 5 - MEMS Materials |
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MEMS and Microsystems |
Lecture 6 - MEMS Materials Properties |
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MEMS and Microsystems |
Lecture 7 - MEMS Materials Properties (Continued...) |
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MEMS and Microsystems |
Lecture 8 - Microelectronic Technology for MEMS - II |
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MEMS and Microsystems |
Lecture 9 - Microelectronic Technology for MEMS - III |
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MEMS and Microsystems |
Lecture 10 - Micromachining Technology for MEMS |
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MEMS and Microsystems |
Lecture 11 - Micromachining Process |
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MEMS and Microsystems |
Lecture 12 - Etch Stop Techniques and Microstructure |
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MEMS and Microsystems |
Lecture 13 - Surface and Quartz Micromachining |
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MEMS and Microsystems |
Lecture 14 - Fabrication of Micromachined Microstructure |
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MEMS and Microsystems |
Lecture 15 - Microstereolithography |
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MEMS and Microsystems |
Lecture 16 - MEMS Microsensors Thermal |
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MEMS and Microsystems |
Lecture 17 - Micromachined Microsensors Mechanical |
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MEMS and Microsystems |
Lecture 18 - MEMS Pressure and Flow Sensor |
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MEMS and Microsystems |
Lecture 19 - Micromachined Flow Sensors |
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MEMS and Microsystems |
Lecture 20 - MEMS Inertial Sensors |
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MEMS and Microsystems |
Lecture 21 - Micromachined Microaccelerometers for MEMS |
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MEMS and Microsystems |
Lecture 22 - MEMS Accelerometers for Avionics |
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MEMS and Microsystems |
Lecture 23 - Temperature Drift and Damping Analysis |
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MEMS and Microsystems |
Lecture 24 - Piezoresistive Accelerometer Technology |
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MEMS and Microsystems |
Lecture 25 - MEMS Capacitive Accelerometer |
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MEMS and Microsystems |
Lecture 26 - MEMS Capacitive Accelerometer Process |
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MEMS and Microsystems |
Lecture 27 - MEMS Gyro Sensor |
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MEMS and Microsystems |
Lecture 28 - MEMS for Space Application |
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MEMS and Microsystems |
Lecture 29 - Polymer MEMS & Carbon Nano Tubes CNT |
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MEMS and Microsystems |
Lecture 30 - Wafer Bonding & Packaging of MEMS |
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MEMS and Microsystems |
Lecture 31 - Interface Electronics for MEMS |
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MEMS and Microsystems |
Lecture 32 - MEMS for Biomedical Applications (Bio-MEMS) |
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Neural Networks and Applications |
Lecture 1 - Introduction to Artificial Neural Networks |
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Neural Networks and Applications |
Lecture 2 - Artificial Neuron Model and Linear Regression |
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Neural Networks and Applications |
Lecture 3 - Gradient Descent Algorithm |
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Neural Networks and Applications |
Lecture 4 - Nonlinear Activation Units and Learning Mechanisms |
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Neural Networks and Applications |
Lecture 5 - Learning Mechanisms-Hebbian, Competitive, Boltzmann |
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Neural Networks and Applications |
Lecture 6 - Associative memory |
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Neural Networks and Applications |
Lecture 7 - Associative Memory Model |
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Neural Networks and Applications |
Lecture 8 - Condition for Perfect Recall in Associative Memory |
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Neural Networks and Applications |
Lecture 9 - Statistical Aspects of Learning |
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Neural Networks and Applications |
Lecture 10 - V.C. Dimensions: Typical Examples |
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Neural Networks and Applications |
Lecture 11 - Importance of V.C. Dimensions Structural Risk Minimization |
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Neural Networks and Applications |
Lecture 12 - Single-Layer Perceptions |
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Neural Networks and Applications |
Lecture 13 - Unconstrained Optimization: Gauss-Newton's Method |
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Neural Networks and Applications |
Lecture 14 - Linear Least Squares Filters |
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Neural Networks and Applications |
Lecture 15 - Least Mean Squares Algorithm |
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Neural Networks and Applications |
Lecture 16 - Perceptron Convergence Theorem |
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Neural Networks and Applications |
Lecture 17 - Bayes Classifier & Perceptron: An Analogy |
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Neural Networks and Applications |
Lecture 18 - Bayes Classifier for Gaussian Distribution |
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Neural Networks and Applications |
Lecture 19 - Back Propagation Algorithm |
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Neural Networks and Applications |
Lecture 20 - Practical Consideration in Back Propagation Algorithm |
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Neural Networks and Applications |
Lecture 21 - Solution of Non-Linearly Separable Problems Using MLP |
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Neural Networks and Applications |
Lecture 22 - Heuristics For Back-Propagation |
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Neural Networks and Applications |
Lecture 23 - Multi-Class Classification Using Multi-layered Perceptrons |
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Neural Networks and Applications |
Lecture 24 - Radial Basis Function Networks: Cover's Theorem |
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Neural Networks and Applications |
Lecture 25 - Radial Basis Function Networks: Separability & Interpolation |
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Neural Networks and Applications |
Lecture 26 - Posed Surface Reconstruction |
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Neural Networks and Applications |
Lecture 27 - Solution of Regularization Equation: Greens Function |
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Neural Networks and Applications |
Lecture 28 - Use of Greens Function in Regularization Networks |
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Neural Networks and Applications |
Lecture 29 - Regularization Networks and Generalized RBF |
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Neural Networks and Applications |
Lecture 30 - Comparison Between MLP and RBF |
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Neural Networks and Applications |
Lecture 31 - Learning Mechanisms in RBF |
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Neural Networks and Applications |
Lecture 32 - Introduction to Principal Components and Analysis |
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Neural Networks and Applications |
Lecture 33 - Dimensionality reduction Using PCA |
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Neural Networks and Applications |
Lecture 34 - Hebbian-Based Principal Component Analysis |
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Neural Networks and Applications |
Lecture 35 - Introduction to Self Organizing Maps |
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Neural Networks and Applications |
Lecture 36 - Cooperative and Adaptive Processes in SOM |
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Neural Networks and Applications |
Lecture 37 - Vector-Quantization Using SOM |
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Probability and Random Processes |
Lecture 1 - Introduction to the Theory of Probability |
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Probability and Random Processes |
Lecture 2 - Axioms of Probability |
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Probability and Random Processes |
Lecture 3 - Axioms of Probability (Continued.) |
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Probability and Random Processes |
Lecture 4 - Introduction to Random Variables |
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Probability and Random Processes |
Lecture 5 - Probability Distributions and Density Functions |
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Probability and Random Processes |
Lecture 6 - Conditional Distribution and Density Functions |
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Probability and Random Processes |
Lecture 7 - Function of a Random Variable |
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Probability and Random Processes |
Lecture 8 - Function of a Random Variable (Continued.) |
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Probability and Random Processes |
Lecture 9 - Mean and Variance of a Random Variable |
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Probability and Random Processes |
Lecture 10 - Moments |
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Probability and Random Processes |
Lecture 11 - Characteristic Function |
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Probability and Random Processes |
Lecture 12 - Two Random Variables |
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Probability and Random Processes |
Lecture 13 - Function of Two Random Variables |
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Probability and Random Processes |
Lecture 14 - Function of Two Random Variables (Continued.) |
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Probability and Random Processes |
Lecture 15 - Correlation Covariance and Related Innver |
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Probability and Random Processes |
Lecture 16 - Vector Space of Random Variables |
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Probability and Random Processes |
Lecture 17 - Joint Moments |
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Probability and Random Processes |
Lecture 18 - Joint Characteristic Functions |
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Probability and Random Processes |
Lecture 19 - Joint Conditional Densities |
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Probability and Random Processes |
Lecture 20 - Joint Conditional Densities (Continued.) |
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Probability and Random Processes |
Lecture 21 - Sequences of Random Variables |
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Probability and Random Processes |
Lecture 22 - Sequences of Random Variables (Continued.) |
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Probability and Random Processes |
Lecture 23 - Correlation Matrices and their Properties |
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Probability and Random Processes |
Lecture 24 - Correlation Matrices and their Properties |
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Probability and Random Processes |
Lecture 25 - Conditional Densities of Random Vectors |
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Probability and Random Processes |
Lecture 26 - Characteristic Functions and Normality |
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Probability and Random Processes |
Lecture 27 - Tchebycheff Inequality and Estimation of an Unknown Parameter |
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Probability and Random Processes |
Lecture 28 - Central Limit Theorem |
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Probability and Random Processes |
Lecture 29 - Introduction to Stochastic Process |
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Probability and Random Processes |
Lecture 30 - Stationary Processes |
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Probability and Random Processes |
Lecture 31 - Cyclostationary Processes |
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Probability and Random Processes |
Lecture 32 - System with Random Process at Input |
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Probability and Random Processes |
Lecture 33 - Ergodic Processes |
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Probability and Random Processes |
Lecture 34 - Introduction to Spectral Analysis |
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Probability and Random Processes |
Lecture 35 - Spectral Analysis (Continued.) |
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Probability and Random Processes |
Lecture 36 - Spectrum Estimation - Non Parametric Methods |
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Probability and Random Processes |
Lecture 37 - Spectrum Estimation - Parametric Methods |
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Probability and Random Processes |
Lecture 38 - Autoregressive Modeling and Linear Prediction |
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Probability and Random Processes |
Lecture 39 - Linear Mean Square Estimation - Wiener (FIR) |
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Probability and Random Processes |
Lecture 40 - Adaptive Filtering - LMS Algorithm |
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Pattern Recognition and Application |
Lecture 1 - Introduction |
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Pattern Recognition and Application |
Lecture 2 - Feature Extraction - I |
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Pattern Recognition and Application |
Lecture 3 - Feature Extraction - II |
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Pattern Recognition and Application |
Lecture 4 - Feature Extraction - III |
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Pattern Recognition and Application |
Lecture 5 - Bayes Decision Theory |
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Pattern Recognition and Application |
Lecture 6 - Bayes Decision Theory (Continued.) |
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Pattern Recognition and Application |
Lecture 7 - Normal Density and Discriminant Function |
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Pattern Recognition and Application |
Lecture 8 - Normal Density and Discriminant Function (Continued.) |
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Pattern Recognition and Application |
Lecture 9 - Bayes Decision Theory - Binary Features |
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Pattern Recognition and Application |
Lecture 10 - Maximum Likelihood Estimation |
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Pattern Recognition and Application |
Lecture 11 - Probability Density Estimation |
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Pattern Recognition and Application |
Lecture 12 - Probability Density Estimation (Continued.) |
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Pattern Recognition and Application |
Lecture 13 - Probability Density Estimation (Continued.) |
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Pattern Recognition and Application |
Lecture 14 - Probability Density Estimation (Continued.) |
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Pattern Recognition and Application |
Lecture 15 - Probability Density Estimation (Continued.) |
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Pattern Recognition and Application |
Lecture 16 - Dimensionality Problem |
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Pattern Recognition and Application |
Lecture 17 - Multiple Discriminant Analysis |
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Pattern Recognition and Application |
Lecture 18 - Multiple Discriminant Analysis (Tutorial) |
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Pattern Recognition and Application |
Lecture 19 - Multiple Discriminant Analysis (Tutorial) |
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Pattern Recognition and Application |
Lecture 20 - Perceptron Criterion |
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Pattern Recognition and Application |
Lecture 21 - Perceptron Criterion (Continued.) |
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Pattern Recognition and Application |
Lecture 22 - MSE Criterion |
Link |
Pattern Recognition and Application |
Lecture 23 - Linear Discriminator (Tutorial) |
Link |
Pattern Recognition and Application |
Lecture 24 - Neural Networks for Pattern Recognition |
Link |
Pattern Recognition and Application |
Lecture 25 - Neural Networks for Pattern Recognition (Continued.) |
Link |
Pattern Recognition and Application |
Lecture 26 - Neural Networks for Pattern Recognition (Continued.) |
Link |
Pattern Recognition and Application |
Lecture 27 - RBF Neural Network |
Link |
Pattern Recognition and Application |
Lecture 28 - RBF Neural Network (Continued.) |
Link |
Pattern Recognition and Application |
Lecture 29 - Support Vector Machine |
Link |
Pattern Recognition and Application |
Lecture 30 - Hyperbox Classifier |
Link |
Pattern Recognition and Application |
Lecture 31 - Hyperbox Classifier (Continued.) |
Link |
Pattern Recognition and Application |
Lecture 32 - Fuzzy Min Max Neural Network for Pattern Recognition |
Link |
Pattern Recognition and Application |
Lecture 33 - Reflex Fuzzy Min Max Neural Network |
Link |
Pattern Recognition and Application |
Lecture 34 - Unsupervised Learning - Clustering |
Link |
Pattern Recognition and Application |
Lecture 35 - Clustering (Continued.) |
Link |
Pattern Recognition and Application |
Lecture 36 - Clustering using minimal spanning tree |
Link |
Pattern Recognition and Application |
Lecture 37 - Temporal Pattern recognition |
Link |
Pattern Recognition and Application |
Lecture 38 - Hidden Markov Model |
Link |
Pattern Recognition and Application |
Lecture 39 - Hidden Markov Model (Continued.) |
Link |
Pattern Recognition and Application |
Lecture 40 - Hidden Markov Model (Continued.) |
Link |
NOC:Basic Tools of Microwave Engineering |
Lecture 1 - Challenges of Microwave Design |
Link |
NOC:Basic Tools of Microwave Engineering |
Lecture 2 - Introduction to the 1st tool : Smith Chart |
Link |
NOC:Basic Tools of Microwave Engineering |
Lecture 3 - Measurement of Unknown Impedance |
Link |
NOC:Basic Tools of Microwave Engineering |
Lecture 4 - Application of Smith Chart for finding unknown impedance in laboratory |
Link |
NOC:Basic Tools of Microwave Engineering |
Lecture 5 - Problem Solving using Smith Chart |
Link |
NOC:Basic Tools of Microwave Engineering |
Lecture 6 - Need of Impedance Matching at Microwave Frequency |
Link |
NOC:Basic Tools of Microwave Engineering |
Lecture 7 - Lumped Element Based Impedance Matching Network Design by Smith Chart |
Link |
NOC:Basic Tools of Microwave Engineering |
Lecture 8 - Distributed Impedance Matching Design by Smith Chart |
Link |
NOC:Basic Tools of Microwave Engineering |
Lecture 9 - Broadband Impedance Matching Network Design |
Link |
NOC:Basic Tools of Microwave Engineering |
Lecture 10 - Tutorial 2: Impedance Matching Network Design by Smith Chart |
Link |
NOC:Basic Tools of Microwave Engineering |
Lecture 11 - Voltage and Current at Microwave Frequency |
Link |
NOC:Basic Tools of Microwave Engineering |
Lecture 12 - Scattering Parameter : the Second Tool |
Link |
NOC:Basic Tools of Microwave Engineering |
Lecture 13 - Properties of Scattering Parameter |
Link |
NOC:Basic Tools of Microwave Engineering |
Lecture 14 - Network Analyser |
Link |
NOC:Basic Tools of Microwave Engineering |
Lecture 15 - Tutorial 3: Problem Solving on Equivalent Voltage and Current in Waveguide and on scattering parameters |
Link |
NOC:Basic Tools of Microwave Engineering |
Lecture 16 - Radiation between S-Parameters and Transmission Parameters |
Link |
NOC:Basic Tools of Microwave Engineering |
Lecture 17 - Scattering Parameters of Coupler and Magic Tee |
Link |
NOC:Basic Tools of Microwave Engineering |
Lecture 18 - Signal Flow Graph |
Link |
NOC:Basic Tools of Microwave Engineering |
Lecture 19 - Understanding Network Analyser Calibration with the help of Signal Flow Graph |
Link |
NOC:Basic Tools of Microwave Engineering |
Lecture 20 - Tutorial 4: Problem Solving Related to S-Parameters and Signal Flow Graph |
Link |
NOC:Basic Building Blocks of Microwave Engineering |
Lecture 1 - Concept of Mode |
Link |
NOC:Basic Building Blocks of Microwave Engineering |
Lecture 2 - Mathematical Model of Modes |
Link |
NOC:Basic Building Blocks of Microwave Engineering |
Lecture 3 - Mathematical Model of TEM Mode |
Link |
NOC:Basic Building Blocks of Microwave Engineering |
Lecture 4 - Mathematical Model of TE and TM Mode and Impedance Concept |
Link |
NOC:Basic Building Blocks of Microwave Engineering |
Lecture 5 - Losses Associated with Microwave Transmission |
Link |
NOC:Basic Building Blocks of Microwave Engineering |
Lecture 6 - Coaxial Line |
Link |
NOC:Basic Building Blocks of Microwave Engineering |
Lecture 7 - Rectangular Waveguide |
Link |
NOC:Basic Building Blocks of Microwave Engineering |
Lecture 8 - Circular Waveguide |
Link |
NOC:Basic Building Blocks of Microwave Engineering |
Lecture 9 - Planar Transmission Line |
Link |
NOC:Basic Building Blocks of Microwave Engineering |
Lecture 10 - Coaxial Connectors |
Link |
NOC:Basic Building Blocks of Microwave Engineering |
Lecture 11 - 3 Port Microwave Power Divider/Combiner - Part I |
Link |
NOC:Basic Building Blocks of Microwave Engineering |
Lecture 12 - 3 Port Microwave Power Divider/Combiner - Part II |
Link |
NOC:Basic Building Blocks of Microwave Engineering |
Lecture 13 - 4 Port Microwave Power Divider/Combiner |
Link |
NOC:Basic Building Blocks of Microwave Engineering |
Lecture 14 - Microwave Resonator |
Link |
NOC:Basic Building Blocks of Microwave Engineering |
Lecture 15 - Microwave Attenuuators |
Link |
NOC:Basic Building Blocks of Microwave Engineering |
Lecture 16 - Microwave Detector and Switching Diodes |
Link |
NOC:Basic Building Blocks of Microwave Engineering |
Lecture 17 - Microwave Tubes : Part I Edit Lesson |
Link |
NOC:Basic Building Blocks of Microwave Engineering |
Lecture 18 - Microwave Tubes : Part II and Amplifiers |
Link |
NOC:Basic Building Blocks of Microwave Engineering |
Lecture 19 - Microwave Solid State Diode Oscillator and Amplifier |
Link |
NOC:Basic Building Blocks of Microwave Engineering |
Lecture 20 - Microwave Transistors |
Link |
NOC:Satellite Communication Systems |
Lecture 1 - Introduction |
Link |
NOC:Satellite Communication Systems |
Lecture 2 - Orbit - 1 |
Link |
NOC:Satellite Communication Systems |
Lecture 3 - Orbit - 2 |
Link |
NOC:Satellite Communication Systems |
Lecture 4 - Orbit - 3 |
Link |
NOC:Satellite Communication Systems |
Lecture 5 - Orbit - 4 |
Link |
NOC:Satellite Communication Systems |
Lecture 6 - Space Segment - 1 |
Link |
NOC:Satellite Communication Systems |
Lecture 7 - Space Segment - 2 |
Link |
NOC:Satellite Communication Systems |
Lecture 8 - Space Segment - 3 |
Link |
NOC:Satellite Communication Systems |
Lecture 9 - Space Segment - 4 |
Link |
NOC:Satellite Communication Systems |
Lecture 10 - Space Segment - 5 |
Link |
NOC:Satellite Communication Systems |
Lecture 11 - Link Budget - 1 |
Link |
NOC:Satellite Communication Systems |
Lecture 12 - Link Budget - 2 |
Link |
NOC:Satellite Communication Systems |
Lecture 13 - Link Budget - 3 |
Link |
NOC:Satellite Communication Systems |
Lecture 14 - Link Budget - 4 |
Link |
NOC:Satellite Communication Systems |
Lecture 15 - Link Budget - 5 |
Link |
NOC:Satellite Communication Systems |
Lecture 16 - Link Budget - 6 |
Link |
NOC:Satellite Communication Systems |
Lecture 17 - Link Budget - 7 |
Link |
NOC:Satellite Communication Systems |
Lecture 18 - Link Budget - 8 |
Link |
NOC:Satellite Communication Systems |
Lecture 19 - Propagation - 1 |
Link |
NOC:Satellite Communication Systems |
Lecture 20 - Propagation - 2 |
Link |
NOC:Satellite Communication Systems |
Lecture 21 - Propagation - 3 |
Link |
NOC:Satellite Communication Systems |
Lecture 22 - Ground Segment - 1 |
Link |
NOC:Satellite Communication Systems |
Lecture 23 - Ground Segment - 2 |
Link |
NOC:Satellite Communication Systems |
Lecture 24 - Ground Segment - 3 |
Link |
NOC:Satellite Communication Systems |
Lecture 25 - Ground Segment - 4 |
Link |
NOC:Satellite Communication Systems |
Lecture 26 - Multiple Access - 1 |
Link |
NOC:Satellite Communication Systems |
Lecture 27 - Multiple Access - 2 |
Link |
NOC:Satellite Communication Systems |
Lecture 28 - Multiple Access - 3 |
Link |
NOC:Satellite Communication Systems |
Lecture 29 - Multiple Access - 4 |
Link |
NOC:Satellite Communication Systems |
Lecture 30 - Multiple Access - 5 |
Link |
NOC:Satellite Communication Systems |
Lecture 31 - Nonlinearity - I |
Link |
NOC:Satellite Communication Systems |
Lecture 32 - Nonlinearity - II |
Link |
NOC:Satellite Communication Systems |
Lecture 33 - Nonlinearity - III |
Link |
NOC:Satellite Communication Systems |
Lecture 34 - Synchronisation - I |
Link |
NOC:Satellite Communication Systems |
Lecture 35 - Synchronisation - II |
Link |
NOC:Satellite Communication Systems |
Lecture 36 - Effect on Higher Layer - I |
Link |
NOC:Satellite Communication Systems |
Lecture 37 - Effect on Higher Layer - II |
Link |
NOC:Satellite Communication Systems |
Lecture 38 - Effect on Higher Layer - III |
Link |
NOC:Satellite Communication Systems |
Lecture 39 - Satellite Navigation - I |
Link |
NOC:Satellite Communication Systems |
Lecture 40 - Satellite Navigation - II |
Link |
NOC:Fundamentals of MIMO Wireless Communication |
Lecture 1 - Evolution of Wireless Communication Systems 1G - 5G |
Link |
NOC:Fundamentals of MIMO Wireless Communication |
Lecture 2 - Elements of Wireless Communication System |
Link |
NOC:Fundamentals of MIMO Wireless Communication |
Lecture 3 - Overview of MIMO Communication Systems |
Link |
NOC:Fundamentals of MIMO Wireless Communication |
Lecture 4 - Layered View of Transmitter and Receiver : Introduction to the Channel |
Link |
NOC:Fundamentals of MIMO Wireless Communication |
Lecture 5 - Wireless Channel Models - I |
Link |
NOC:Fundamentals of MIMO Wireless Communication |
Lecture 6 - Large Scale Propagation Models Path Loss |
Link |
NOC:Fundamentals of MIMO Wireless Communication |
Lecture 7 - Large Scale Propagation Models Path Loss and Shadowing |
Link |
NOC:Fundamentals of MIMO Wireless Communication |
Lecture 8 - Small Scale Propagation Multipath Model |
Link |
NOC:Fundamentals of MIMO Wireless Communication |
Lecture 9 - Small Scale Propagation Frequency Flat Fading |
Link |
NOC:Fundamentals of MIMO Wireless Communication |
Lecture 10 - Small Scale Propagation Envelope Distribution |
Link |
NOC:Fundamentals of MIMO Wireless Communication |
Lecture 11 - Small Scale Propagation Received Signal Correlation |
Link |
NOC:Fundamentals of MIMO Wireless Communication |
Lecture 12 - Small Scale Propagation Received Signal Correlation (Continued...) |
Link |
NOC:Fundamentals of MIMO Wireless Communication |
Lecture 13 - Coherence Time |
Link |
NOC:Fundamentals of MIMO Wireless Communication |
Lecture 14 - Doppler Spectrum |
Link |
NOC:Fundamentals of MIMO Wireless Communication |
Lecture 15 - Frequency Selective Fading |
Link |
NOC:Fundamentals of MIMO Wireless Communication |
Lecture 16 - Frequency Selective Fading - II |
Link |
NOC:Fundamentals of MIMO Wireless Communication |
Lecture 17 - FSF-Coherence Bandwidth, Delay Doppeler Characteristics |
Link |
NOC:Fundamentals of MIMO Wireless Communication |
Lecture 18 - Spatial Channel Characteristics - I |
Link |
NOC:Fundamentals of MIMO Wireless Communication |
Lecture 19 - Expression of MIMO Channel |
Link |
NOC:Fundamentals of MIMO Wireless Communication |
Lecture 20 - MIMO Channel Characteristics |
Link |
NOC:Fundamentals of MIMO Wireless Communication |
Lecture 21 - Statistical Properties of H |
Link |
NOC:Fundamentals of MIMO Wireless Communication |
Lecture 22 - Important Results from Linear Algebra |
Link |
NOC:Fundamentals of MIMO Wireless Communication |
Lecture 23 - Spatial Diversity |
Link |
NOC:Fundamentals of MIMO Wireless Communication |
Lecture 24 - Selection Combining |
Link |
NOC:Fundamentals of MIMO Wireless Communication |
Lecture 25 - Maximal Ratio Combining |
Link |
NOC:Fundamentals of MIMO Wireless Communication |
Lecture 26 - Problem of Error in MRC |
Link |
NOC:Fundamentals of MIMO Wireless Communication |
Lecture 27 - Diversity Gain and Transmit MRC |
Link |
NOC:Fundamentals of MIMO Wireless Communication |
Lecture 28 - Transmit Diversity without Channel known at Tx |
Link |
NOC:Fundamentals of MIMO Wireless Communication |
Lecture 29 - MIMO Transmit Diversity - 1 |
Link |
NOC:Fundamentals of MIMO Wireless Communication |
Lecture 30 - MIMO Diversity - 2 |
Link |
NOC:Fundamentals of MIMO Wireless Communication |
Lecture 31 - Fundamentals of Information Theory - I |
Link |
NOC:Fundamentals of MIMO Wireless Communication |
Lecture 32 - Fundamentals of Information Theory - II |
Link |
NOC:Fundamentals of MIMO Wireless Communication |
Lecture 33 - Fundamentals of Information Theory - III |
Link |
NOC:Fundamentals of MIMO Wireless Communication |
Lecture 34 - Fundamentals of Information Theory - IV |
Link |
NOC:Fundamentals of MIMO Wireless Communication |
Lecture 35 - Capacity of Deterministic MIMO Channels |
Link |
NOC:Fundamentals of MIMO Wireless Communication |
Lecture 36 - Capacity of Channel Unknown at Transmitter |
Link |
NOC:Fundamentals of MIMO Wireless Communication |
Lecture 37 - Capacity of Channel Known of Transmitter |
Link |
NOC:Fundamentals of MIMO Wireless Communication |
Lecture 38 - More on MIMO Channel Capacity |
Link |
NOC:Fundamentals of MIMO Wireless Communication |
Lecture 39 - Capacity of Random Channel |
Link |
NOC:Fundamentals of MIMO Wireless Communication |
Lecture 40 - MIMO in Practice |
Link |
NOC:Audio System Engineering |
Lecture 1 - Introduction |
Link |
NOC:Audio System Engineering |
Lecture 2 - Fundamentals of Linear Vibrations Edit Lesson |
Link |
NOC:Audio System Engineering |
Lecture 3 - Damped Oscillation and Forced Oscillation |
Link |
NOC:Audio System Engineering |
Lecture 4 - Equivalent Electrical Circuits for Oscillation |
Link |
NOC:Audio System Engineering |
Lecture 5 - Tutorial I |
Link |
NOC:Audio System Engineering |
Lecture 6 - Acoustic Wave Equation |
Link |
NOC:Audio System Engineering |
Lecture 7 - Acoustic Wave Equation (Continued...) |
Link |
NOC:Audio System Engineering |
Lecture 8 - Acoustic Wave Equation (Continued...) |
Link |
NOC:Audio System Engineering |
Lecture 9 - Spherical Waves Propagation |
Link |
NOC:Audio System Engineering |
Lecture 10 - Perception at Sound |
Link |
NOC:Audio System Engineering |
Lecture 11 - Sound Transmission |
Link |
NOC:Audio System Engineering |
Lecture 12 - Sound Transmission (Continued...) |
Link |
NOC:Audio System Engineering |
Lecture 13 - The Acoustic Environment |
Link |
NOC:Audio System Engineering |
Lecture 14 - Room Acoustics - I |
Link |
NOC:Audio System Engineering |
Lecture 15 - Room Acoustics - II |
Link |
NOC:Audio System Engineering |
Lecture 16 - Large Room Acoustics and Small Room Acoustics |
Link |
NOC:Audio System Engineering |
Lecture 17 - Large Room Acoustics and Small Room Acoustics (Continued...) |
Link |
NOC:Audio System Engineering |
Lecture 18 - Auditorium Acoustics |
Link |
NOC:Audio System Engineering |
Lecture 19 - Transduction - I |
Link |
NOC:Audio System Engineering |
Lecture 20 - Transduction - II |
Link |
NOC:Audio System Engineering |
Lecture 21 - Transduction - III |
Link |
NOC:Audio System Engineering |
Lecture 22 - Microphone - I |
Link |
NOC:Audio System Engineering |
Lecture 23 - Microphone Sensitivity |
Link |
NOC:Audio System Engineering |
Lecture 24 - Loudspeaker |
Link |
NOC:Discrete Time Signal Processing |
Lecture 1 - Introduction |
Link |
NOC:Discrete Time Signal Processing |
Lecture 2 - Discrete Time Signals and Systems |
Link |
NOC:Discrete Time Signal Processing |
Lecture 3 - Linear, Shift Invariant Systems |
Link |
NOC:Discrete Time Signal Processing |
Lecture 4 - Properties of Discrete Convolution Causal and Stable Systems |
Link |
NOC:Discrete Time Signal Processing |
Lecture 5 - Graphical Evaluation of Discrete Convolutions |
Link |
NOC:Discrete Time Signal Processing |
Lecture 6 - Discrete Time Fourier Transform |
Link |
NOC:Discrete Time Signal Processing |
Lecture 7 - Properties of DTFT |
Link |
NOC:Discrete Time Signal Processing |
Lecture 8 - Dirac Comb and Sampling Analog Signals |
Link |
NOC:Discrete Time Signal Processing |
Lecture 9 - Relation between DTFT and Analog Fourier Transform |
Link |
NOC:Discrete Time Signal Processing |
Lecture 10 - Nyquist Interpolation Formula |
Link |
NOC:Discrete Time Signal Processing |
Lecture 11 - Rational Systems |
Link |
NOC:Discrete Time Signal Processing |
Lecture 12 - Properties of Rational Systems |
Link |
NOC:Discrete Time Signal Processing |
Lecture 13 - Introduction to Z-transform |
Link |
NOC:Discrete Time Signal Processing |
Lecture 14 - Properties of Z-transform |
Link |
NOC:Discrete Time Signal Processing |
Lecture 15 - Properties of z-transform |
Link |
NOC:Discrete Time Signal Processing |
Lecture 16 - Inverse z-transform |
Link |
NOC:Discrete Time Signal Processing |
Lecture 17 - Introduction to DFT |
Link |
NOC:Discrete Time Signal Processing |
Lecture 18 - Properties of DFT |
Link |
NOC:Discrete Time Signal Processing |
Lecture 19 - Introduction to Interpretation of Circular Convolution |
Link |
NOC:Discrete Time Signal Processing |
Lecture 20 - Graphically Interpretation of Circular Convolution |
Link |
NOC:Discrete Time Signal Processing |
Lecture 21 - Zero Padding and Linear convolution Via DFT |
Link |
NOC:Discrete Time Signal Processing |
Lecture 22 - Decimation and DFT of Decimated Sequences |
Link |
NOC:Discrete Time Signal Processing |
Lecture 23 - Expension and Interpolation of Sequences |
Link |
NOC:Discrete Time Signal Processing |
Lecture 24 - Factor-of-M Polyphase Decomposition of Sequences |
Link |
NOC:Discrete Time Signal Processing |
Lecture 25 - Nobel Identifies |
Link |
NOC:Discrete Time Signal Processing |
Lecture 26 - Efficient Decimator and Interpolator Structure |
Link |
NOC:Discrete Time Signal Processing |
Lecture 27 - Linear Phase Filters |
Link |
NOC:Discrete Time Signal Processing |
Lecture 28 - Properties of Linear Phase Filters |
Link |
NOC:Discrete Time Signal Processing |
Lecture 29 - Structures for IIR Filters |
Link |
NOC:Discrete Time Signal Processing |
Lecture 30 - Structures for FIR Filters |
Link |
NOC:Discrete Time Signal Processing |
Lecture 31 - Analog LTI Systems, Fourier and Laplace Transforms |
Link |
NOC:Discrete Time Signal Processing |
Lecture 32 - Pole, Zero and Stability of of Analog Filters |
Link |
NOC:Discrete Time Signal Processing |
Lecture 33 - Analog Filter Design Example Butterworth Lowpass Filter |
Link |
NOC:Discrete Time Signal Processing |
Lecture 34 - IIR Filter Design by Implus Invariance Method |
Link |
NOC:Discrete Time Signal Processing |
Lecture 35 - Design Filter Design from Analog Proptotype Filters by s-z Transformations |
Link |
NOC:Discrete Time Signal Processing |
Lecture 36 - Bilinear Transformation |
Link |
NOC:Discrete Time Signal Processing |
Lecture 37 - FIR Filter Design by Window |
Link |
NOC:Discrete Time Signal Processing |
Lecture 38 - FFT: Decimation in Time |
Link |
NOC:Discrete Time Signal Processing |
Lecture 39 - Complexity Analysis of FFT |
Link |
NOC:Discrete Time Signal Processing |
Lecture 40 - Bit Reversal and FFT |
Link |
NOC:Digital Image Processing |
Lecture 1 - Introduction to Digital Image Processing |
Link |
NOC:Digital Image Processing |
Lecture 2 - Application of Digital Image Processing |
Link |
NOC:Digital Image Processing |
Lecture 3 - Image Digitalization, Sampling Quantization and Display |
Link |
NOC:Digital Image Processing |
Lecture 4 - Signal Reconstruction from Samples: Convolution Concept |
Link |
NOC:Digital Image Processing |
Lecture 5 - Signal Reconstruction from Image |
Link |
NOC:Digital Image Processing |
Lecture 6 - Quantizer Design |
Link |
NOC:Digital Image Processing |
Lecture 7 - Relationship between Pixels |
Link |
NOC:Digital Image Processing |
Lecture 8 - Relationship of Adjacency and Connected Components Labeling |
Link |
NOC:Digital Image Processing |
Lecture 9 - Application of Distance Measures |
Link |
NOC:Digital Image Processing |
Lecture 10 - Basic Transform |
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NOC:Digital Image Processing |
Lecture 11 - Image Formation - I |
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NOC:Digital Image Processing |
Lecture 12 - Image Formation - II |
Link |
NOC:Digital Image Processing |
Lecture 13 - Image Geometry - I |
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NOC:Digital Image Processing |
Lecture 14 - Image Geometry - II |
Link |
NOC:Digital Image Processing |
Lecture 15 - Stereo Imaging Model - II |
Link |
NOC:Digital Image Processing |
Lecture 16 - Interpolation and Resampling |
Link |
NOC:Digital Image Processing |
Lecture 17 - Interpolation Techniques |
Link |
NOC:Digital Image Processing |
Lecture 18 - Interpolation with examples - I |
Link |
NOC:Digital Image Processing |
Lecture 19 - Interpolation with Examples - II |
Link |
NOC:Digital Image Processing |
Lecture 20 - Image Transformation - I Edit Lesson |
Link |
NOC:Digital Image Processing |
Lecture 21 - Image Transformation - 2 |
Link |
NOC:Digital Image Processing |
Lecture 22 - Separable Transformation |
Link |
NOC:Digital Image Processing |
Lecture 23 - Basis Images |
Link |
NOC:Digital Image Processing |
Lecture 24 - Fourier Transformation |
Link |
NOC:Digital Image Processing |
Lecture 25 - Properties of FT |
Link |
NOC:Digital Image Processing |
Lecture 26 - FT Result Display - 2 |
Link |
NOC:Digital Image Processing |
Lecture 27 - Rotation Invariance Property |
Link |
NOC:Digital Image Processing |
Lecture 28 - DCT and Walsh Transform |
Link |
NOC:Digital Image Processing |
Lecture 29 - Handmard Transformation |
Link |
NOC:Digital Image Processing |
Lecture 30 - Histogram Equalization and Specifications - I |
Link |
NOC:Digital Image Processing |
Lecture 31 - KL-transform-2 |
Link |
NOC:Digital Image Processing |
Lecture 32 - Image Enhancement: Point Processing Techniques |
Link |
NOC:Digital Image Processing |
Lecture 33 - Contrast Stretching Operation |
Link |
NOC:Digital Image Processing |
Lecture 34 - Histogram Equalization and Specification - I |
Link |
NOC:Digital Image Processing |
Lecture 35 - Histogram Equalization and Specification - II |
Link |
NOC:Digital Image Processing |
Lecture 36 - Histogram Implementation - I |
Link |
NOC:Digital Image Processing |
Lecture 37 - Histogram Implementation - II |
Link |
NOC:Digital Image Processing |
Lecture 38 - Image Enhancement : Mask Processing Techniques - I |
Link |
NOC:Digital Image Processing |
Lecture 39 - Image Enhancement : Mask Processing Techniques - II |
Link |
NOC:Digital Image Processing |
Lecture 40 - Image Enhancement : Mask Processing Techniques - III |
Link |
NOC:Digital Image Processing |
Lecture 41 - Frequency Domain Processing Techniques |
Link |
NOC:Digital Image Processing |
Lecture 42 - Image Restoration Techniques - I |
Link |
NOC:Digital Image Processing |
Lecture 43 - Image Restoration Techniques - II |
Link |
NOC:Digital Image Processing |
Lecture 44 - Estimation of Degradation Model and Restoration Techniques - I |
Link |
NOC:Digital Image Processing |
Lecture 45 - Estimation of Degradation Model and Restoration Techniques - II |
Link |
NOC:Digital Image Processing |
Lecture 46 - Other Restoration Techniques - I |
Link |
NOC:Digital Image Processing |
Lecture 47 - Other Restoration Techniques - II |
Link |
NOC:Digital Image Processing |
Lecture 48 - Image Registration - I |
Link |
NOC:Digital Image Processing |
Lecture 49 - Image Registration - II |
Link |
NOC:Digital Image Processing |
Lecture 50 - Colour Image Processing : Colour Fundamentals |
Link |
NOC:Digital Image Processing |
Lecture 51 - Colour Model |
Link |
NOC:Digital Image Processing |
Lecture 52 - Conversion of one color model to another - I |
Link |
NOC:Digital Image Processing |
Lecture 53 - Conversion of one color model to another - II |
Link |
NOC:Digital Image Processing |
Lecture 54 - Pseudo color image processing |
Link |
NOC:Digital Image Processing |
Lecture 55 - Full color image processing |
Link |
NOC:Digital Image Processing |
Lecture 56 - Different Approaches for Image Segmentation |
Link |
NOC:Digital Image Processing |
Lecture 57 - Image Segmentation : Global Processing (Hough Transform) |
Link |
NOC:Digital Image Processing |
Lecture 58 - Region based Segmentation Operation. Thresholding Techniques |
Link |
NOC:Digital Image Processing |
Lecture 59 - Region Splitting and Merging Technique Edit Lesson |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 1 - Introduction to Spread Spectrum Communication |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 2 - Direct Sequence Spread Spectrum System |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 3 - Performance Analysis of DSSS |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 4 - Concept of Jamming Margin |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 5 - Frequency Hopping Spread Spectrum System |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 6 - Tutorial-1 |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 7 - Slow and Fast Frequency Hopping |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 8 - Hybrid Spread Spectrum System and Time Hopped SSS |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 9 - Spread Sequences and Waveforms |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 10 - Generation Mechanism of ML Sequence |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 11 - Properties of Spread Spectrum Sequences |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 12 - Tutorial-2 |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 13 - Power Spectral Density of ML Sequence |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 14 - Walsh Hadamard Code and Properties |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 15 - Generation Mechanism and Properties of OVSF and Barker Codes |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 16 - Generation Mechanism and Properties of Gold and Kasami Codes |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 17 - Performance Analysis of DSSS in Presence of Tone Jamming |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 18 - Performance Analysis During Generation Tone Jamming |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 19 - Performance Analysis in Presence of Gaussian Interference |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 20 - Performance Analysis of a Quaternary System |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 21 - Despreading with Matched Filter |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 22 - Noncoherent Systems |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 23 - Tutorial - III |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 24 - Galois Field Mathematics |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 25 - Galois Field Mathematics (Continued...) |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 26 - Galois Field Mathematics (Continued...) |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 27 - Polynomials over Binary Field |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 28 - Long Nonlinear Sequence Generation |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 29 - Rejection of Narrowband Interference |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 30 - Narrow Band Interference Cancellation by Transform Domain Processing |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 31 - PN Code Acquisition Fundamentals |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 32 - Performance Analysis of PN Code Acquisition System - Part I |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 33 - Performance Analysis of PN Code Acquisition System - Part II |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 34 - Tutorial - IV |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 35 - Rapid Acquisition Using Matched Filter - Part I |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 36 - Rapid Acquisition Using Matched Filter - Part II |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 37 - Active Search Acquisition for FFH/MFSK Signals |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 38 - Active Search Code Acquisiton for FFH/MFSK Analysis |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 39 - Detection Probability Analysis of Code Acquisition for FFH / MFSK |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 40 - Tutorial - V |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 41 - DSSS Tracking |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 42 - FHSS Synchronization Method - I |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 43 - FHSS Synchronization Method - II |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 44 - FHSS Synchronization Method - III |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 45 - FHSS Tracking |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 46 - Tutorial - VI |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 47 - Concept of Fading for Wireless Communications |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 48 - Diversity for Fading Channels |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 49 - Rake Receiver |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 50 - Performance Analysis of Rake Receiver |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 51 - Spread Spectrum Multiple Access |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 52 - Tutorial - VII |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 53 - Introduction to CDMA |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 54 - Interference Handling Mechanism in CDMA Networks |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 55 - Interference Handling by Soft Handover |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 56 - Interference Handling by Smart Antenna |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 57 - Multiuser Detection and Interference Cancellation |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 58 - Tutorial - VIII |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 59 - Multiuser Detection - Part I |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 60 - Multiuser Detection - Part II |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 61 - MUD - Probability of Error |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 62 - IS95 and CDMA - Part I |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 63 - IS95 and CDMA - Part II |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 64 - Tutorial - IX |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 65 - WCDMA and UMTS - Part I |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 66 - WCDMA and UMTS - Part II |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 67 - LPI Communications |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 68 - Radiometer |
Link |
NOC:Spread Spectrum Communications and Jamming |
Lecture 69 - Interceptor Detectors |
Link |
NOC:Digital VLSI Testing |
Lecture 1 - Introduction |
Link |
NOC:Digital VLSI Testing |
Lecture 2 - Introduction (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 3 - Introduction (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 4 - Introduction (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 5 - DFT |
Link |
NOC:Digital VLSI Testing |
Lecture 6 - DFT (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 7 - DFT (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 8 - DFT (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 9 - DFT (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 10 - DFT (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 11 - Logic and Fault Simulation |
Link |
NOC:Digital VLSI Testing |
Lecture 12 - Logic and Fault Simulation (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 13 - Logic and Fault Simulation (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 14 - Logic and Fault Simulation (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 15 - Logic and Fault Simulation (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 16 - Logic and Fault Simulation (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 17 - Test Generation |
Link |
NOC:Digital VLSI Testing |
Lecture 18 - Test Generation (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 19 - Test Generation (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 20 - Test Generation (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 21 - Test Generation (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 22 - Test Generation (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 23 - Test Generation (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 24 - Logic BIST |
Link |
NOC:Digital VLSI Testing |
Lecture 25 - Logic BIST (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 26 - Logic BIST (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 27 - Logic BIST (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 28 - Test Compression |
Link |
NOC:Digital VLSI Testing |
Lecture 29 - Test Compression (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 30 - Test Compression (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 31 - Test Compression (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 32 - Low Power Testing |
Link |
NOC:Digital VLSI Testing |
Lecture 33 - Low Power Testing (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 34 - Low Power Testing (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 35 - Low Power Testing (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 36 - Low Power Testing (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 37 - Thermal Aware Testing |
Link |
NOC:Digital VLSI Testing |
Lecture 38 - Thermal Aware Testing (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 39 - Thermal Aware Testing (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 40 - Boundary Scan |
Link |
NOC:Digital VLSI Testing |
Lecture 41 - Boundary Scan (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 42 - Boundary Scan (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 43 - Boundary Scan (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 44 - Boundary Scan (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 45 - System/Network - On - Chip Test |
Link |
NOC:Digital VLSI Testing |
Lecture 46 - System/Network - On - Chip Test (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 47 - System/Network - On - Chip Test (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 48 - System/Network - On - Chip Test (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 49 - System/Network - On - Chip Test (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 50 - System/Network - On - Chip Test (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 51 - System/Network - On - Chip Test (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 52 - System/Network - On - Chip Test (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 53 - System/Network - On - Chip Test (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 54 - System/Network - On - Chip Test (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 55 - System/Network - On - Chip Test (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 56 - System/Network - On - Chip Test (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 57 - Memory Testing |
Link |
NOC:Digital VLSI Testing |
Lecture 58 - Memory Testing (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 59 - Memory Testing (Continued...) |
Link |
NOC:Digital VLSI Testing |
Lecture 60 - Memory Testing (Continued...) |
Link |
NOC:Design Principles of RF and Microwave Filters and Amplifiers |
Lecture 1 - Image Impedance based RF filter design |
Link |
NOC:Design Principles of RF and Microwave Filters and Amplifiers |
Lecture 2 - Concept of Image impedance and Propagation Constant |
Link |
NOC:Design Principles of RF and Microwave Filters and Amplifiers |
Lecture 3 - Symmetrical lossless network description for filter design |
Link |
NOC:Design Principles of RF and Microwave Filters and Amplifiers |
Lecture 4 - Constant k prototype filter design |
Link |
NOC:Design Principles of RF and Microwave Filters and Amplifiers |
Lecture 5 - m-derived prototype filter design |
Link |
NOC:Design Principles of RF and Microwave Filters and Amplifiers |
Lecture 6 - Introduction to Insertion loss based Microwave Filter Design |
Link |
NOC:Design Principles of RF and Microwave Filters and Amplifiers |
Lecture 7 - Prototype low pass filter design |
Link |
NOC:Design Principles of RF and Microwave Filters and Amplifiers |
Lecture 8 - Filter transformation |
Link |
NOC:Design Principles of RF and Microwave Filters and Amplifiers |
Lecture 9 - Microwave Filter implementation |
Link |
NOC:Design Principles of RF and Microwave Filters and Amplifiers |
Lecture 10 - Tutorial an Insertion Loss based Microwave Filter design |
Link |
NOC:Design Principles of RF and Microwave Filters and Amplifiers |
Lecture 11 - Gain Definitions of Microwave Amplifiers |
Link |
NOC:Design Principles of RF and Microwave Filters and Amplifiers |
Lecture 12 - Stability Analysis of Microwave Amplifiers |
Link |
NOC:Design Principles of RF and Microwave Filters and Amplifiers |
Lecture 13 - Conditional stability enforcement for Microwave Amplifier |
Link |
NOC:Design Principles of RF and Microwave Filters and Amplifiers |
Lecture 14 - Amplifier design of maximising transducer gain |
Link |
NOC:Design Principles of RF and Microwave Filters and Amplifiers |
Lecture 15 - Amplifier design for specified gain |
Link |
NOC:Design Principles of RF and Microwave Filters and Amplifiers |
Lecture 16 - Amplifier design for specified noise performance |
Link |
NOC:Design Principles of RF and Microwave Filters and Amplifiers |
Lecture 17 - Broadband Amplifier Design |
Link |
NOC:Design Principles of RF and Microwave Filters and Amplifiers |
Lecture 18 - Quantitative Characterisation of Nonlinearity for Large Signal Amplifier |
Link |
NOC:Design Principles of RF and Microwave Filters and Amplifiers |
Lecture 19 - Quantitative Characterisation of Nonlinearity for Large Signal Amplifier (Continued...) |
Link |
NOC:Design Principles of RF and Microwave Filters and Amplifiers |
Lecture 20 - Measurement of Nonlinearity |
Link |
NOC:Millimeter Wave Technology |
Lecture 1 - Introduction to Millimeter-Wave Technology |
Link |
NOC:Millimeter Wave Technology |
Lecture 2 - Introduction to Millimeter-Wave Technology (Continued...) |
Link |
NOC:Millimeter Wave Technology |
Lecture 3 - Introduction to Millimeter-Wave Technology (Continued...) |
Link |
NOC:Millimeter Wave Technology |
Lecture 4 - Introduction to Millimeter-Wave Technology (Continued...) |
Link |
NOC:Millimeter Wave Technology |
Lecture 5 - Introduction to Millimeter-Wave Technology (Continued...) |
Link |
NOC:Millimeter Wave Technology |
Lecture 6 - Guiding Structures |
Link |
NOC:Millimeter Wave Technology |
Lecture 7 - Guiding Structures (Continued...) |
Link |
NOC:Millimeter Wave Technology |
Lecture 8 - Guiding Structures (Continued...) |
Link |
NOC:Millimeter Wave Technology |
Lecture 9 - Guiding Structures (Continued...) |
Link |
NOC:Millimeter Wave Technology |
Lecture 10 - Guiding Structures (Continued...) |
Link |
NOC:Millimeter Wave Technology |
Lecture 11 - Guiding Structures (Continued...) |
Link |
NOC:Millimeter Wave Technology |
Lecture 12 - Guiding Structures (Continued...) |
Link |
NOC:Millimeter Wave Technology |
Lecture 13 - Guiding Structures (Continued...) |
Link |
NOC:Millimeter Wave Technology |
Lecture 14 - Guiding Structures (Continued...) |
Link |
NOC:Millimeter Wave Technology |
Lecture 15 - Guiding Structures (Continued...) |
Link |
NOC:Millimeter Wave Technology |
Lecture 16 - Antennas at MM-Wave Frequencies |
Link |
NOC:Millimeter Wave Technology |
Lecture 17 - Antennas at MM-Wave Frequencies (Continued...) |
Link |
NOC:Millimeter Wave Technology |
Lecture 18 - Antennas at MM-Wave Frequencies (Continued...) |
Link |
NOC:Millimeter Wave Technology |
Lecture 19 - Antennas at MM-Wave Frequencies (Continued...) |
Link |
NOC:Millimeter Wave Technology |
Lecture 20 - Antennas at MM-WaveFrequencies (Continued...) |
Link |
NOC:Millimeter Wave Technology |
Lecture 21 - Passive Components |
Link |
NOC:Millimeter Wave Technology |
Lecture 22 - Passive Components (Continued...) |
Link |
NOC:Millimeter Wave Technology |
Lecture 23 - Passive Components (Continued...) |
Link |
NOC:Millimeter Wave Technology |
Lecture 24 - Passive Components (Continued...) |
Link |
NOC:Millimeter Wave Technology |
Lecture 25 - Passive Components (Continued...) |
Link |
NOC:Millimeter Wave Technology |
Lecture 26 - Active Devices |
Link |
NOC:Millimeter Wave Technology |
Lecture 27 - Active Devices (Continued...) |
Link |
NOC:Millimeter Wave Technology |
Lecture 28 - Active Devices (Continued...) |
Link |
NOC:Millimeter Wave Technology |
Lecture 29 - Active Devices (Continued...) |
Link |
NOC:Millimeter Wave Technology |
Lecture 30 - Active Devices (Continued...) |
Link |
NOC:Millimeter Wave Technology |
Lecture 31 - Noise and Link Budget |
Link |
NOC:Millimeter Wave Technology |
Lecture 32 - Noise and Link Budget (Continued...) |
Link |
NOC:Millimeter Wave Technology |
Lecture 33 - Noise and Link Budget (Continued...) |
Link |
NOC:Millimeter Wave Technology |
Lecture 34 - Noise and Link Budget (Continued...) |
Link |
NOC:Millimeter Wave Technology |
Lecture 35 - Noise and Link Budget (Continued...) |
Link |
NOC:Millimeter Wave Technology |
Lecture 36 - Millimeter-Wave Systems |
Link |
NOC:Millimeter Wave Technology |
Lecture 37 - Millimeter-Wave Systems (Continued...) |
Link |
NOC:Millimeter Wave Technology |
Lecture 38 - Millimeter-Wave Systems (Continued...) |
Link |
NOC:Millimeter Wave Technology |
Lecture 39 - Millimeter-Wave Systems (Continued...) |
Link |
NOC:Millimeter Wave Technology |
Lecture 40 - Millimeter-Wave Systems (Continued...) |
Link |
NOC:Power System Analysis |
Lecture 1 - Structure of Power Systems and Few other Aspects - I |
Link |
NOC:Power System Analysis |
Lecture 2 - Structure of Power Systems and Few other Aspects - II |
Link |
NOC:Power System Analysis |
Lecture 3 - Structure of Power Systems and Few other Aspects - III |
Link |
NOC:Power System Analysis |
Lecture 4 - Resistance and Inductance |
Link |
NOC:Power System Analysis |
Lecture 5 - Resistance and Inductance (Continued...) |
Link |
NOC:Power System Analysis |
Lecture 6 - Resistance and Inductance (Continued...) |
Link |
NOC:Power System Analysis |
Lecture 7 - Resistance and Inductance (Continued...) |
Link |
NOC:Power System Analysis |
Lecture 8 - Resistance and Inductance (Continued...) |
Link |
NOC:Power System Analysis |
Lecture 9 - Resistance and Inductance (Continued...) |
Link |
NOC:Power System Analysis |
Lecture 10 - Resistance and Inductance (Continued...) |
Link |
NOC:Power System Analysis |
Lecture 11 - Capacitance of Transmisson Lines |
Link |
NOC:Power System Analysis |
Lecture 12 - Capacitance of Transmisson Lines (Continued...) |
Link |
NOC:Power System Analysis |
Lecture 13 - Capacitance of Transmisson Lines (Continued...) |
Link |
NOC:Power System Analysis |
Lecture 14 - Capacitance of Transmisson Lines (Continued...) |
Link |
NOC:Power System Analysis |
Lecture 15 - Power System Components and per-unit system |
Link |
NOC:Power System Analysis |
Lecture 16 - Power System Components and per-unit system (Continued...) |
Link |
NOC:Power System Analysis |
Lecture 17 - Power System Components and per-unit system (Continued...) |
Link |
NOC:Power System Analysis |
Lecture 18 - Power System Components and per-unit system (Continued...) |
Link |
NOC:Power System Analysis |
Lecture 19 - Power System Components and per-unit system (Continued...) |
Link |
NOC:Power System Analysis |
Lecture 20 - Power System Components and per-unit system (Continued...) |
Link |
NOC:Power System Analysis |
Lecture 21 - Characteristic and performance of transmission lines |
Link |
NOC:Power System Analysis |
Lecture 22 - Characteristic and performance of transmission lines (Continued...) |
Link |
NOC:Power System Analysis |
Lecture 23 - Characteristic and performance of transmission lines (Continued...) |
Link |
NOC:Power System Analysis |
Lecture 24 - Characteristic and performance of transmission lines (Continued...) |
Link |
NOC:Power System Analysis |
Lecture 25 - Characteristic and performance of transmission lines (Continued...) |
Link |
NOC:Power System Analysis |
Lecture 26 - Load flow studies |
Link |
NOC:Power System Analysis |
Lecture 27 - Load flow studies (Continued...) |
Link |
NOC:Power System Analysis |
Lecture 28 - Load flow studies (Continued...) |
Link |
NOC:Power System Analysis |
Lecture 29 - Load flow studies (Continued...) |
Link |
NOC:Power System Analysis |
Lecture 30 - Load flow studies (Continued...) |
Link |
NOC:Power System Analysis |
Lecture 31 |
Link |
NOC:Power System Analysis |
Lecture 32 |
Link |
NOC:Power System Analysis |
Lecture 33 |
Link |
NOC:Power System Analysis |
Lecture 34 |
Link |
NOC:Power System Analysis |
Lecture 35 |
Link |
NOC:Power System Analysis |
Lecture 36 - Load flow studies (Continued...) |
Link |
NOC:Power System Analysis |
Lecture 37 - Optimal system operation |
Link |
NOC:Power System Analysis |
Lecture 38 - Optimal system operation (Continued...) |
Link |
NOC:Power System Analysis |
Lecture 39 - Optimal system operation (Continued...) |
Link |
NOC:Power System Analysis |
Lecture 40 - Optimal system operation (Continued...) |
Link |
NOC:Power System Analysis |
Lecture 41 - Optimal system operation (Continued...) |
Link |
NOC:Power System Analysis |
Lecture 42 - Optimal system operation (Continued...) |
Link |
NOC:Power System Analysis |
Lecture 43 - Optimal system operation (Continued...) |
Link |
NOC:Power System Analysis |
Lecture 44 - Optimal system operation (Continued...) |
Link |
NOC:Power System Analysis |
Lecture 45 - Three phase fault studies |
Link |
NOC:Power System Analysis |
Lecture 46 - Three phase fault studies (Continued...) |
Link |
NOC:Power System Analysis |
Lecture 47 - Three phase fault studies (Continued...) |
Link |
NOC:Power System Analysis |
Lecture 48 - Three phase fault studies (Continued...) |
Link |
NOC:Power System Analysis |
Lecture 49 - Symmetrical components |
Link |
NOC:Power System Analysis |
Lecture 50 - Symmetrical components (Continued...) |
Link |
NOC:Power System Analysis |
Lecture 51 - Symmetrical components (Continued...) |
Link |
NOC:Power System Analysis |
Lecture 52 - Symmetrical components (Continued...) |
Link |
NOC:Power System Analysis |
Lecture 53 - Symmetrical components (Continued...) |
Link |
NOC:Power System Analysis |
Lecture 54 - Symmetrical components (Continued...) |
Link |
NOC:Power System Analysis |
Lecture 55 - Power system stability> |
Link |
NOC:Power System Analysis |
Lecture 56 - Power system stability (Continued...) |
Link |
NOC:Power System Analysis |
Lecture 57 - Power system stability (Continued...) |
Link |
NOC:Power System Analysis |
Lecture 58 - Power system stability (Continued...) |
Link |
NOC:Power System Analysis |
Lecture 59 - Power system stability (Continued...) |
Link |
NOC:Power System Analysis |
Lecture 60 - Power system stability (Continued...) |
Link |
NOC:Analog Communication |
Lecture 1 - Fourier Series |
Link |
NOC:Analog Communication |
Lecture 2 - Fourier Series (Continued...) |
Link |
NOC:Analog Communication |
Lecture 3 - Fourier Series (Continued...) |
Link |
NOC:Analog Communication |
Lecture 4 - Fourier Series (Continued...) |
Link |
NOC:Analog Communication |
Lecture 5 - Fourier Series (Continued...) |
Link |
NOC:Analog Communication |
Lecture 6 - Fourier Series (Continued...) |
Link |
NOC:Analog Communication |
Lecture 7 - Fourier Series (Continued...) |
Link |
NOC:Analog Communication |
Lecture 8 - Fourier Transform |
Link |
NOC:Analog Communication |
Lecture 9 - Fourier Transform (Continued...) |
Link |
NOC:Analog Communication |
Lecture 10 - Fourier Transform (Continued...) |
Link |
NOC:Analog Communication |
Lecture 11 - Fourier Transform (Continued...) |
Link |
NOC:Analog Communication |
Lecture 12 - Energy Spectral Density |
Link |
NOC:Analog Communication |
Lecture 13 - Power Spectral Density |
Link |
NOC:Analog Communication |
Lecture 14 - PSD of Random Signal |
Link |
NOC:Analog Communication |
Lecture 15 - Amplitude Modulation |
Link |
NOC:Analog Communication |
Lecture 16 - Amplitude Modulation (Continued...) |
Link |
NOC:Analog Communication |
Lecture 17 - Amplitude Modulation (Continued...) |
Link |
NOC:Analog Communication |
Lecture 18 - Amplitude Modulation (Continued...) |
Link |
NOC:Analog Communication |
Lecture 19 - SSB - SC |
Link |
NOC:Analog Communication |
Lecture 20 - SSB - SC (Continued...) |
Link |
NOC:Analog Communication |
Lecture 21 - VSB-SC |
Link |
NOC:Analog Communication |
Lecture 22 - VSB-SC (Continued...) |
Link |
NOC:Analog Communication |
Lecture 23 - Effect of Carrier Synchronization |
Link |
NOC:Analog Communication |
Lecture 24 - Comparison of Different Modulation Technique |
Link |
NOC:Analog Communication |
Lecture 25 - PLL |
Link |
NOC:Analog Communication |
Lecture 26 - PLL (Continued...) |
Link |
NOC:Analog Communication |
Lecture 27 - PLL (Continued...) |
Link |
NOC:Analog Communication |
Lecture 28 - PLL (Continued...) and LTI |
Link |
NOC:Analog Communication |
Lecture 29 - Dispersion |
Link |
NOC:Analog Communication |
Lecture 30 - Channel Nonlinearities and Multipath Effects |
Link |
NOC:Analog Communication |
Lecture 31 - Probability Theory |
Link |
NOC:Analog Communication |
Lecture 32 - Probability Theory (Continued...) |
Link |
NOC:Analog Communication |
Lecture 33 - Probability Theory (Continued...) |
Link |
NOC:Analog Communication |
Lecture 34 - Probability Theory (Continued...) |
Link |
NOC:Analog Communication |
Lecture 35 - Probability Theory (Continued...) |
Link |
NOC:Analog Communication |
Lecture 36 - Probability Theory (Continued...) |
Link |
NOC:Analog Communication |
Lecture 37 - Probability Theory (Continued...) |
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NOC:Analog Communication |
Lecture 38 - Random Process |
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NOC:Analog Communication |
Lecture 39 - Random Process (Continued...) |
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NOC:Analog Communication |
Lecture 40 - Random Process (Continued...) |
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NOC:Analog Communication |
Lecture 41 - Random Process (Continued...) |
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NOC:Analog Communication |
Lecture 42 - Random Process (Continued...) |
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NOC:Analog Communication |
Lecture 43 - Random Process (Continued...) |
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NOC:Analog Communication |
Lecture 44 - Noise Analysis - DSB-SC |
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NOC:Analog Communication |
Lecture 45 - Noise Analysis - AM |
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NOC:Analog Communication |
Lecture 46 - Noise Analysis - SSB-SC |
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NOC:Analog Communication |
Lecture 47 - Frequency Modulation |
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NOC:Analog Communication |
Lecture 48 - Frequency Modulation (Continued...) |
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NOC:Analog Communication |
Lecture 49 - Frequency Modulation (Continued...) |
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NOC:Analog Communication |
Lecture 50 - Frequency Modulation (Continued...) |
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NOC:Analog Communication |
Lecture 51 - Frequency Modulation (Continued...) |
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NOC:Analog Communication |
Lecture 52 - Frequency Modulation (Continued...) |
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NOC:Analog Communication |
Lecture 53 - FM Noise Analysis |
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NOC:Analog Communication |
Lecture 54 - FM Noise Analysis (Continued...) |
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NOC:Analog Communication |
Lecture 55 - FM Noise Analysis (Continued...)> |
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NOC:Analog Communication |
Lecture 56 - Sampling Theorem |
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NOC:Analog Communication |
Lecture 57 - Sampling Theorem (Continued...) |
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NOC:Analog Communication |
Lecture 58 - FDM Vs TDM |
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NOC:Analog Communication |
Lecture 59 - Flat Top Vs Natural Sampling |
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NOC:Analog Communication |
Lecture 60 - Pulse Coded Modulation |
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NOC:Modern Digital Communication Techniques |
Lecture 1 - Introduction of Digital Communication System |
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NOC:Modern Digital Communication Techniques |
Lecture 2 - Introduction of Digital Communication System (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 3 - Introduction of Digital Communication System (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 4 - Introduction of Digital Communication System (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 5 - Introduction of Digital Communication System (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 6 - Source Coding |
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NOC:Modern Digital Communication Techniques |
Lecture 7 - Source Coding (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 8 - Source Coding (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 9 - Source Coding (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 10 - Source Coding (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 11 - Source Coding (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 12 - Source Coding (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 13 - Source Coding (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 14 - Source Coding (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 15 - Analog to Digital Conversion |
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NOC:Modern Digital Communication Techniques |
Lecture 16 - Analog to Digital Conversion (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 17 - Characterization of Signals and Systems |
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NOC:Modern Digital Communication Techniques |
Lecture 18 - Characterization of Signals and Systems (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 19 - Characterization of Signals and Systems (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 20 - Characterization of Signals and Systems (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 21 - Characterization of Signals and Systems (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 22 - Characterization of Signals and Systems (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 23 - Characterization of Signals and Systems (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 24 - Memoryless Modulation |
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NOC:Modern Digital Communication Techniques |
Lecture 25 - Memoryless Modulation (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 26 - Memoryless Modulation (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 27 - Memoryless Modulation (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 28 - Memoryless Modulation (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 29 - Memoryless Modulation (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 30 - Memoryless Modulation (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 31 - Memoryless Modulation (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 32 - Memoryless Modulation (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 33 - With Memory Modulation |
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NOC:Modern Digital Communication Techniques |
Lecture 34 - With Memory Modulation (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 35 - With Memory Modulation (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 36 - With Memory Modulation (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 37 - With Memory Modulation (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 38 - With Memory Modulation (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 39 - With Memory Modulation (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 40 - Optimum Receivers for AWGN |
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NOC:Modern Digital Communication Techniques |
Lecture 41 - Optimum Receivers for AWGN (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 42 - Optimum Receivers for AWGN (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 43 - Optimum Receivers for AWGN (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 44 - Optimum Receivers for AWGN (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 45 - Optimum Receivers for AWGN (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 46 - Performance of Digital Modulation Techniques |
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NOC:Modern Digital Communication Techniques |
Lecture 47 - Performance of Digital Modulation Techniques (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 48 - Performance of Digital Modulation Techniques (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 49 - Performance of Digital Modulation Techniques (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 50 - Performance of Digital Modulation Techniques (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 51 - Performance of Digital Modulation Techniques (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 52 - Performance of Digital Modulation Techniques (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 53 - Channel Estimation and Equalization |
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NOC:Modern Digital Communication Techniques |
Lecture 54 - Channel Estimation and Equalization (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 55 - Channel Estimation and Equalization (Continued...)> |
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NOC:Modern Digital Communication Techniques |
Lecture 56 - Channel Estimation and Equalization (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 57 - Synchronization Techniques |
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NOC:Modern Digital Communication Techniques |
Lecture 58 - Synchronization Techniques (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 59 - Synchronization Techniques (Continued...) |
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NOC:Modern Digital Communication Techniques |
Lecture 60 - Synchronization Techniques (Continued...) |
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NOC:Digital Speech Processing |
Lecture 1 - Introduction to Digital Speech Processing |
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NOC:Digital Speech Processing |
Lecture 2 - Digitization and Recording |
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NOC:Digital Speech Processing |
Lecture 3 - Review of DSP Concepts |
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NOC:Digital Speech Processing |
Lecture 4 - Review of DSP Concepts (Continued...) |
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NOC:Digital Speech Processing |
Lecture 5 - Human Speech Production and Source Filter Model |
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NOC:Digital Speech Processing |
Lecture 6 - Place and Mannerat Articulation |
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NOC:Digital Speech Processing |
Lecture 7 - Articulatory and Acoustic Phonetics |
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NOC:Digital Speech Processing |
Lecture 8 - Handson on Acoustic Phonetics |
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NOC:Digital Speech Processing |
Lecture 9 - Uniform Tube Modeling of Speech Processing - I |
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NOC:Digital Speech Processing |
Lecture 10 - Uniform Tube Modeling of Speech Processing - II |
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NOC:Digital Speech Processing |
Lecture 11 - Uniform Tube Modeling of Speech Processing - III |
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NOC:Digital Speech Processing |
Lecture 12 - Uniform Tube Modeling of Speech Processing - IV |
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NOC:Digital Speech Processing |
Lecture 13 - Uniform Tube Modeling of Speech Processing - V |
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NOC:Digital Speech Processing |
Lecture 14 - Uniform Tube Modeling of Speech Processing - VI |
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NOC:Digital Speech Processing |
Lecture 15 - Uniform Tube Modeling of Speech Processing - VII |
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NOC:Digital Speech Processing |
Lecture 16 - Speech Perception - Part I |
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NOC:Digital Speech Processing |
Lecture 17 - Speech Perception - Part II |
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NOC:Digital Speech Processing |
Lecture 18 - Speech Perception - Part III |
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NOC:Digital Speech Processing |
Lecture 19 - Time Domain Methods in Speech Processing |
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NOC:Digital Speech Processing |
Lecture 20 - Time Domain Methods in Speech Processing (Continued...) |
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NOC:Digital Speech Processing |
Lecture 21 - Introduction to Liner Prediction |
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NOC:Digital Speech Processing |
Lecture 22 - Autocorrelation Method of LPC analysis |
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NOC:Digital Speech Processing |
Lecture 23 - Autocorrelation Method of LPC analysis (Continued...) |
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NOC:Digital Speech Processing |
Lecture 24 - Lattice Formulations of Linear Prediction |
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NOC:Digital Speech Processing |
Lecture 25 - Lattice Formulations of Linear Prediction (Continued...) |
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NOC:Digital Speech Processing |
Lecture 26 - Review of Short-Time Fourier Transform (STFT) |
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NOC:Digital Speech Processing |
Lecture 27 - Short-Time Fourier Transform Analysis |
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NOC:Digital Speech Processing |
Lecture 28 - Short-Time Fourier Transform Synthesis |
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NOC:Digital Speech Processing |
Lecture 29 - Lattice Formulations of Linear Prediction |
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NOC:Digital Speech Processing |
Lecture 30 - Lattice Formulations of Linear Prediction (Continued...) |
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NOC:Digital Speech Processing |
Lecture 31 - Segmental and Supra-segmental features of speech signal |
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NOC:Digital Speech Processing |
Lecture 32 - Cepstral Transform Coefficients (CC) Parameters extraction |
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NOC:Digital Speech Processing |
Lecture 33 - Mel Frequency Cepstral Coefficients |
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NOC:Digital Speech Processing |
Lecture 34 - MFCC features vector |
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NOC:Digital Speech Processing |
Lecture 35 - Fundamental Frequency (F0) Detection of speech signal |
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NOC:Digital Speech Processing |
Lecture 36 - Frequency Domain Fundamental Frequency Detection Algorithms |
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NOC:Digital Speech Processing |
Lecture 37 - Text to Speech Synthesis |
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NOC:Digital Speech Processing |
Lecture 38 - Text to Speech Synthesis (Continued...) |
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NOC:Digital Speech Processing |
Lecture 39 - Automatic Speech Recognition |
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NOC:Digital Speech Processing |
Lecture 40 - Statistical Modeling of Automatic Speech Recognition |
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NOC:Digital Speech Processing |
Lecture 41 - Speech based Technology Development for e-learning |
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NOC:Digital Speech Processing |
Lecture 42 - Prosody Modeling |
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NOC:Digital Speech Processing |
Lecture 43 - Fundamental frequency countur modeling |
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NOC:Digital Speech Processing |
Lecture 44 - Fundamental frequency contour modeling (Continued...) |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 1 - Basic Analog Design Part I |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 2 - Basic Analog Design Part I (Continued...) |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 3 - Basic Analog Design Part II |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 4 - Basic Analog Design Part II (Continued...) |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 5 - Basic Analog Design Part III |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 6 - Basic Analog Design Part III (Continued...) |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 7 - Basic Analog Design Part III (Continued...) |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 8 - Basic Analog Design Part III (Continued...) |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 9 - Basic Analog Design Part III (Continued...) |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 10 - Basic Analog Design Part III (Continued...) |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 11 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 12 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 13 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 14 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 15 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 16 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 17 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 18 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 19 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 20 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 21 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 22 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 23 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 24 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 25 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 26 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 27 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 28 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 29 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 30 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 31 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 32 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 33 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 34 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 35 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 36 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 37 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 38 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 39 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 40 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 41 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 42 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 43 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 44 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 45 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 46 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 47 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 48 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 49 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 50 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 51 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 52 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 53 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 54 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 55 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 56 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 57 |
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NOC:Analog Circuits and Systems through SPICE Simulation |
Lecture 58 |
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NOC:Communication Networks |
Lecture 1 - Introduction to Communication Networks |
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NOC:Communication Networks |
Lecture 2 - Introduction to Communication Networks (Continued...) |
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NOC:Communication Networks |
Lecture 3 - Introduction to Communication Networks (Continued...) |
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NOC:Communication Networks |
Lecture 4 - Circuit Switch Networks |
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NOC:Communication Networks |
Lecture 5 - Space switch Artitechture |
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NOC:Communication Networks |
Lecture 6 - Space switch Architecture (Continued...) |
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NOC:Communication Networks |
Lecture 7 - Space Switch Architecture (Continued...) |
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NOC:Communication Networks |
Lecture 8 - Space Switch Architecture (Continued...) |
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NOC:Communication Networks |
Lecture 9 - Space Switch Architecture (Continued...) |
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NOC:Communication Networks |
Lecture 10 - Time Switch |
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NOC:Communication Networks |
Lecture 11 - Space Time Switch |
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NOC:Communication Networks |
Lecture 12 - Space Time Switch (Continued...) |
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NOC:Communication Networks |
Lecture 13 - Synchronisation |
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NOC:Communication Networks |
Lecture 14 - Synchronisation (Continued...) |
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NOC:Communication Networks |
Lecture 15 - Introduction to Queuing Theory |
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NOC:Communication Networks |
Lecture 16 - Arrival and Service Process |
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NOC:Communication Networks |
Lecture 17 - Poisson Process |
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NOC:Communication Networks |
Lecture 18 - poisson process (Continued...) |
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NOC:Communication Networks |
Lecture 19 - Memorylessness |
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NOC:Communication Networks |
Lecture 20 - Little's Theorem |
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NOC:Communication Networks |
Lecture 21 - Little's Theorem (Continued...) |
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NOC:Communication Networks |
Lecture 22 - D T M C |
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NOC:Communication Networks |
Lecture 23 - D T M C (Continued...) |
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NOC:Communication Networks |
Lecture 24 - D T M C To C T M C |
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NOC:Communication Networks |
Lecture 25 - C T M C |
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NOC:Communication Networks |
Lecture 26 - M/M/1 Queue |
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NOC:Communication Networks |
Lecture 27 - M/M/m And M/M/m/m System |
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NOC:Communication Networks |
Lecture 28 - Introduction to Data Networks |
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NOC:Communication Networks |
Lecture 29 - Introduction to Data Networks (Continued...) |
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NOC:Communication Networks |
Lecture 30 - Introduction to Data Networks (Continued...) |
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NOC:Communication Networks |
Lecture 31 - Layered Architecture |
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NOC:Communication Networks |
Lecture 32 - Layered Architecture (Continued...) |
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NOC:Communication Networks |
Lecture 33 - Broadband Access - Dail Up/ADSL |
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NOC:Communication Networks |
Lecture 34 - Broadband Access - DSL, Aloha |
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NOC:Communication Networks |
Lecture 35 - Aloha/Slotted Aloha |
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NOC:Communication Networks |
Lecture 36 - Slotted Aloha |
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NOC:Communication Networks |
Lecture 37 - Slotted Aloha (Continued...) |
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NOC:Communication Networks |
Lecture 38 - Slotted Aloha- Stability Analysis |
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NOC:Communication Networks |
Lecture 39 - Slotted Aloha- Stability Analysis (Continued...) |
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NOC:Communication Networks |
Lecture 40 - Stabilized Slotted Aloha-bayesian Estimation |
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NOC:Communication Networks |
Lecture 41 - Binary Back- off Algorithm |
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NOC:Communication Networks |
Lecture 42 - Effect of Physical Media |
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NOC:Communication Networks |
Lecture 43 - PON and Ethernet MAC |
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NOC:Communication Networks |
Lecture 44 - PON and Ethernet MAC (Continued...) |
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NOC:Communication Networks |
Lecture 45 - CSMA/CD |
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NOC:Communication Networks |
Lecture 46 - CSMA/CA |
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NOC:Communication Networks |
Lecture 47 - CSMA/CA (Continued...) |
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NOC:Communication Networks |
Lecture 48 - CSMA/CA (Continued...) |
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NOC:Communication Networks |
Lecture 49 - CSMA/CA (Continued...) |
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NOC:Communication Networks |
Lecture 50 - Learning Bridges |
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NOC:Communication Networks |
Lecture 51 - Learning Bridges (Continued...) |
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NOC:Communication Networks |
Lecture 52 - Distributed Spanning Tree |
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NOC:Communication Networks |
Lecture 53 - Distributed Spanning Tree (Continued...) |
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NOC:Communication Networks |
Lecture 54 - Internet Protocol |
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NOC:Communication Networks |
Lecture 55 - Internet Protocol (Continued...) |
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NOC:Communication Networks |
Lecture 56 - Subnet and ARP |
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NOC:Communication Networks |
Lecture 57 - ARP and DHCP |
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NOC:Communication Networks |
Lecture 58 - DHCP and Routing |
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NOC:Signal Processing Techniques and its Applications |
Lecture 1 - Introduction |
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NOC:Signal Processing Techniques and its Applications |
Lecture 2 - Signal and its Types |
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NOC:Signal Processing Techniques and its Applications |
Lecture 3 - Characteristics of a Signal |
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NOC:Signal Processing Techniques and its Applications |
Lecture 4 - Digitization of Signal |
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NOC:Signal Processing Techniques and its Applications |
Lecture 5 - Digitization of Signal (Continued...) |
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NOC:Signal Processing Techniques and its Applications |
Lecture 6 - Concept of Frequency in Continuous-time and Discrete-time Signal |
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NOC:Signal Processing Techniques and its Applications |
Lecture 7 - Tutorial 1 |
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NOC:Signal Processing Techniques and its Applications |
Lecture 8 - Discrete Time Signal |
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NOC:Signal Processing Techniques and its Applications |
Lecture 9 - Discrete Time System |
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NOC:Signal Processing Techniques and its Applications |
Lecture 10 - D.T.S (L.T.I System) |
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NOC:Signal Processing Techniques and its Applications |
Lecture 11 - Linear Time-Invariant Systems (Continued...) |
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NOC:Signal Processing Techniques and its Applications |
Lecture 12 - Correlation |
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NOC:Signal Processing Techniques and its Applications |
Lecture 13 - Tutorial 02 |
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NOC:Signal Processing Techniques and its Applications |
Lecture 14 - Z-Transform |
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NOC:Signal Processing Techniques and its Applications |
Lecture 15 - Z-Transform Properties |
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NOC:Signal Processing Techniques and its Applications |
Lecture 16 - Pole and Zero in Z-Transform |
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NOC:Signal Processing Techniques and its Applications |
Lecture 17 - Inverse Z-Transform |
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NOC:Signal Processing Techniques and its Applications |
Lecture 18 - Frequency-Domain Representation of Discrete Signals and L.T.I Systems |
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NOC:Signal Processing Techniques and its Applications |
Lecture 19 - Discrete Fourier Transform (DFT) |
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NOC:Signal Processing Techniques and its Applications |
Lecture 20 - Discrete Fourier Transform Linear Transform View |
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NOC:Signal Processing Techniques and its Applications |
Lecture 21 - Discrete Fourier Transform Linear Transform View (Continued...) |
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NOC:Signal Processing Techniques and its Applications |
Lecture 22 - Properties of Discrete Fourier Transform |
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NOC:Signal Processing Techniques and its Applications |
Lecture 23 - Properties of Discrete Fourier Transform (Continued...) |
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NOC:Signal Processing Techniques and its Applications |
Lecture 24 - Properties of Discrete Fourier Transform (Continued...) |
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NOC:Signal Processing Techniques and its Applications |
Lecture 25 - Properties of Discrete Fourier Transform (Continued...) |
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NOC:Signal Processing Techniques and its Applications |
Lecture 26 - Linear Filtering |
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NOC:Signal Processing Techniques and its Applications |
Lecture 27 - Tutorial 5 |
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NOC:Signal Processing Techniques and its Applications |
Lecture 28 - Two Dimensional Discrete Fourier Transform |
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NOC:Signal Processing Techniques and its Applications |
Lecture 29 - Discrete Cosine Transform |
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NOC:Signal Processing Techniques and its Applications |
Lecture 30 - Frequency analysis of long signal using DFT |
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NOC:Signal Processing Techniques and its Applications |
Lecture 31 - Short-Time Fourier Transform (STFT) |
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NOC:Signal Processing Techniques and its Applications |
Lecture 32 - STFT Synthesis |
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NOC:Signal Processing Techniques and its Applications |
Lecture 33 - Fast Fourier Transform (FFT) Algorithms |
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NOC:Signal Processing Techniques and its Applications |
Lecture 34 - Fast Fourier Transform (FFT) Algorithms (Continued...) |
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NOC:Signal Processing Techniques and its Applications |
Lecture 35 - Radix-2 FFT Algorithms |
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NOC:Signal Processing Techniques and its Applications |
Lecture 36 - Radix-2 FFT Algorithms (Continued...) |
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NOC:Signal Processing Techniques and its Applications |
Lecture 37 - Spectrum and spectrogram |
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NOC:Signal Processing Techniques and its Applications |
Lecture 38 - Digital Filter |
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NOC:Signal Processing Techniques and its Applications |
Lecture 39 - FIR Filter |
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NOC:Signal Processing Techniques and its Applications |
Lecture 40 - Linear Symmetric and Anti-symmetric filter |
Link |
NOC:Signal Processing Techniques and its Applications |
Lecture 41 - FIR Filter Design |
Link |
NOC:Signal Processing Techniques and its Applications |
Lecture 42 - Frequency Sampling Method |
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NOC:Signal Processing Techniques and its Applications |
Lecture 43 - Design Optimum equiripple Linear-Phase FIR Filters (optimization methods) |
Link |
NOC:Signal Processing Techniques and its Applications |
Lecture 44 - Infinite Impulse Response (IIR) Filters |
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NOC:Signal Processing Techniques and its Applications |
Lecture 45 - Traditional Analog Filter Design |
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NOC:Signal Processing Techniques and its Applications |
Lecture 46 - Chebyshev filter Design Method |
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NOC:Signal Processing Techniques and its Applications |
Lecture 47 - Analogue filter to digital filter transformation |
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NOC:Signal Processing Techniques and its Applications |
Lecture 48 - Linear Prediction and Optimum Linear Filters |
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NOC:Signal Processing Techniques and its Applications |
Lecture 49 - Autocorrelation Method for Linear Prediction |
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NOC:Signal Processing Techniques and its Applications |
Lecture 50 - Covariance Method for Linear Prediction |
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NOC:Signal Processing Techniques and its Applications |
Lecture 51 - Lattice Formulations of Linear Prediction |
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NOC:Signal Processing Techniques and its Applications |
Lecture 52 - Lattice Formulations of Linear Prediction (Continued....) |
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NOC:Signal Processing Techniques and its Applications |
Lecture 53 - Introduction to Multirate Signal Processing |
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NOC:Signal Processing Techniques and its Applications |
Lecture 54 - Analysis of Decimation and Interpolation |
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NOC:Signal Processing Techniques and its Applications |
Lecture 55 - Fractional Rate Conversion |
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NOC:Signal Processing Techniques and its Applications |
Lecture 56 - Implementations of Decimator and Interpolator |
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NOC:Signal Processing Techniques and its Applications |
Lecture 57 - Sample Rate Conversion by Stages |
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NOC:Signal Processing Techniques and its Applications |
Lecture 58 - Power Spectrum Estimation |
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NOC:Signal Processing Techniques and its Applications |
Lecture 59 - Power Spectrum Estimation (Continued...) |
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NOC:Signal Processing Techniques and its Applications |
Lecture 60 - Tutorial 6: Tutorial for Final Examination |
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Analog IC Design |
Lecture 1 - Course introduction; Negative feedback control |
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Analog IC Design |
Lecture 2 - Negative feedback amplifier |
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Analog IC Design |
Lecture 3 - Step response, sinusoidal steady state response |
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Analog IC Design |
Lecture 4 - Loop gain and unity loop gain frequency; Opamp |
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Analog IC Design |
Lecture 5 - Opamp realization using controlled sources; Delay in the loop |
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Analog IC Design |
Lecture 6 - Negative feedback amplifier with ideal delay-small delays |
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Analog IC Design |
Lecture 7 - Negative feedback amplifier with ideal delay-large delays |
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Analog IC Design |
Lecture 8 - Negative feedback amplifier with parasitic poles and zeros |
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Analog IC Design |
Lecture 9 - Negative feedback amplifier with parasitic poles and zeros; Nyquist criterion |
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Analog IC Design |
Lecture 10 - Nyquist criterion; Phase margin |
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Analog IC Design |
Lecture 11 - Phase margin |
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Analog IC Design |
Lecture 12 - Single stage opamp realization |
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Analog IC Design |
Lecture 13 - Two stage miller compensated opamp |
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Analog IC Design |
Lecture 14 - Two stage miller compensated opamp |
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Analog IC Design |
Lecture 15 - Two and three stage miller compensated opamps; Feedforward compensated opamp |
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Analog IC Design |
Lecture 16 - Feedforward compensated opamp |
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Analog IC Design |
Lecture 17 - Feedforward compensated opamp |
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Analog IC Design |
Lecture 18 - Feedforward compensated opamp; typical opamp data sheet |
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Analog IC Design |
Lecture 19 - Opamp offset and CMRR; Transimpedance amplifier using an opamp |
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Analog IC Design |
Lecture 20 - Components available in a CMOS process |
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Analog IC Design |
Lecture 21 - MOS transistors-basics |
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Analog IC Design |
Lecture 22 - MOS transistors-parasitics, mismatch |
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Analog IC Design |
Lecture 23 - MOS transistors-mismatch, speed |
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Analog IC Design |
Lecture 24 - Noise in resistors |
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Analog IC Design |
Lecture 25 - Noise in MOS transistors; Input and output referred noise |
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Analog IC Design |
Lecture 26 - Noise scaling; Basic amplifier stages-Common source, common gate |
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Analog IC Design |
Lecture 27 - Basic amplifier stages-Common drain; Frequency response of amplifiers |
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Analog IC Design |
Lecture 28 - Common source amplifier frequency response; Differential amplifier |
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Analog IC Design |
Lecture 29 - Differential and common mode half circuits; Differential pair with active load |
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Analog IC Design |
Lecture 30 - Differential pair with current mirror load |
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Analog IC Design |
Lecture 31 - Single stage opamp characteristics |
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Analog IC Design |
Lecture 32 - Opamp with single and dual supplies; Single stage opamp tradeoffs |
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Analog IC Design |
Lecture 33 - Telescopic cascode opamp |
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Analog IC Design |
Lecture 34 - Telescopic cascode opamp; Folded cascode opamp |
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Analog IC Design |
Lecture 35 - Folded cascode opamp |
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Analog IC Design |
Lecture 36 - Two stage opamp |
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Analog IC Design |
Lecture 37 - Two stage opamp; Three stage and triple cascode opamps |
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Analog IC Design |
Lecture 38 - Common mode rejection ratio; Example |
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Analog IC Design |
Lecture 39 - Fully differential circuits |
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Analog IC Design |
Lecture 40 - Fully differential single stage opamp |
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Analog IC Design |
Lecture 41 - Common mode feedback |
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Analog IC Design |
Lecture 42 - Fully differential single stage opamp |
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Analog IC Design |
Lecture 43 - Fully differential two stage opamp; Fully differential versus pseudo-differential |
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Analog IC Design |
Lecture 44 - Circuit simulators and analyses |
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Analog IC Design |
Lecture 45 - Phase locked loop as frequency multiplier |
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Analog IC Design |
Lecture 46 - Phase domain model |
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Analog IC Design |
Lecture 47 - Type I PLL transfer function and reference feedthrough |
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Analog IC Design |
Lecture 48 - Type II PLL |
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Analog IC Design |
Lecture 49 - Type II PLL transfer functions; Implementation |
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Analog IC Design |
Lecture 50 - Type II PLL-extra poles; Random noise in a PLL |
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Analog IC Design |
Lecture 51 - Oscillator phase noise |
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Analog IC Design |
Lecture 52 - PLL phase noise; LC and ring Oscillators |
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Analog IC Design |
Lecture 53 - Generating PTAT and constant MOS gm bias currents |
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Analog IC Design |
Lecture 54 - Reducing supply sensitivity; Bandgap voltage reference |
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Analog IC Design |
Lecture 55 - Fractional bandgap reference; Low dropout regulator |
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Analog IC Design |
Lecture 56 - Low dropout regulators; Continuous-time active filters |
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Analog IC Design |
Lecture 57 - Continuous-time active filters |
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Analog IC Design |
Lecture 58 - Continuous-time active filters |
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Analog IC Design |
Lecture 59 - Discrete-time active filters |
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Analog IC Design |
Lecture 60 - Transistor sizing in practice; Course summary |
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Coding Theory |
Lecture 1 - Introduction to Linear Block Codes |
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Coding Theory |
Lecture 2 - Properties of Linear Block Codes |
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Coding Theory |
Lecture 3 - Dual of Linear Block Codes |
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Coding Theory |
Lecture 4 - Minimum Distance of Codes |
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Coding Theory |
Lecture 5 - Operations on Codes |
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Coding Theory |
Lecture 6 - Bounds on Code Parameters |
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Coding Theory |
Lecture 7 - Optimal Decoders |
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Coding Theory |
Lecture 8 - Syndrome Decoder, Basics of Finite Fields |
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Coding Theory |
Lecture 9 - Constructions of Finite Fields |
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Coding Theory |
Lecture 10 - Computations in Finite Fields |
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Coding Theory |
Lecture 11 - Codes over Finite Fields, Minimal Polynomials |
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Coding Theory |
Lecture 12 - BCH Codes |
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Coding Theory |
Lecture 13 - BCH and RS Codes I |
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Coding Theory |
Lecture 14 - BCH and RS Codes II |
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Coding Theory |
Lecture 15 - Decoding BCH Codes |
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Coding Theory |
Lecture 16 - Decoding RS Codes |
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Coding Theory |
Lecture 17 - Coded Modulation and Soft Decision Decoding |
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Coding Theory |
Lecture 18 - Optimal Decoders for BPSK and AWGN |
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Coding Theory |
Lecture 19 - Bitwise Map Decoder for BPSK over AWGN |
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Coding Theory |
Lecture 20 - Bitwise Map Decoder from the Dual Code |
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Coding Theory |
Lecture 21 - Simulating Coded Modulation |
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Coding Theory |
Lecture 22 - Union Bound, Introduction to LDPC Codes |
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Coding Theory |
Lecture 23 - LDPC Codes |
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Coding Theory |
Lecture 24 - Message Passing, Density Evolution Analysis |
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Coding Theory |
Lecture 25 - Thresholds of LDPC Codes |
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Coding Theory |
Lecture 26 - Irregular LDPC Codes |
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Coding Theory |
Lecture 27 - Optimized Irregular LDPC Codes, Soft Message Passing Decoders |
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Coding Theory |
Lecture 28 - Density Evolution for Soft Message Passing Decoding of LDPC Codes |
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Coding Theory |
Lecture 29 - LDPC Codes in Practice |
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Coding Theory |
Lecture 30 - Introduction to Convolutional Codes |
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Coding Theory |
Lecture 31 - Viterbi Decoding of Convolutional Codes |
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Coding Theory |
Lecture 32 - Union Bound, Recursive Convolutional Encoders |
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Coding Theory |
Lecture 33 - Convolutional Codes in Practice |
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Coding Theory |
Lecture 34 - BCJR Decoder |
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Coding Theory |
Lecture 35 - BCJR & Max-Log-MAP Decoder, Introduction to Turbo Codes |
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Coding Theory |
Lecture 36 - Turbo Decoder |
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Coding Theory |
Lecture 37 - Turbo Codes in Practice |
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Coding Theory |
Lecture 38 - Modern Codes |
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Semiconductor Device Modeling |
Lecture 1 |
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Semiconductor Device Modeling |
Lecture 2 |
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Semiconductor Device Modeling |
Lecture 3 |
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Semiconductor Device Modeling |
Lecture 4 |
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Semiconductor Device Modeling |
Lecture 5 |
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Semiconductor Device Modeling |
Lecture 6 |
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Semiconductor Device Modeling |
Lecture 7 |
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Semiconductor Device Modeling |
Lecture 8 |
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Semiconductor Device Modeling |
Lecture 9 |
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Semiconductor Device Modeling |
Lecture 10 |
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Semiconductor Device Modeling |
Lecture 11 |
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Semiconductor Device Modeling |
Lecture 12 |
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Semiconductor Device Modeling |
Lecture 13 |
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Semiconductor Device Modeling |
Lecture 14 |
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Semiconductor Device Modeling |
Lecture 15 |
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Semiconductor Device Modeling |
Lecture 16 |
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Semiconductor Device Modeling |
Lecture 17 |
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Semiconductor Device Modeling |
Lecture 18 |
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Semiconductor Device Modeling |
Lecture 19 |
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Semiconductor Device Modeling |
Lecture 20 |
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Semiconductor Device Modeling |
Lecture 21 |
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Semiconductor Device Modeling |
Lecture 22 |
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Semiconductor Device Modeling |
Lecture 23 |
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Semiconductor Device Modeling |
Lecture 24 |
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Semiconductor Device Modeling |
Lecture 25 |
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Semiconductor Device Modeling |
Lecture 26 |
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Semiconductor Device Modeling |
Lecture 27 |
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Semiconductor Device Modeling |
Lecture 28 |
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Semiconductor Device Modeling |
Lecture 29 |
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Semiconductor Device Modeling |
Lecture 30 |
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Semiconductor Device Modeling |
Lecture 31 |
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Semiconductor Device Modeling |
Lecture 32 |
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Semiconductor Device Modeling |
Lecture 33 |
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Semiconductor Device Modeling |
Lecture 34 |
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Semiconductor Device Modeling |
Lecture 35 |
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Semiconductor Device Modeling |
Lecture 36 |
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Semiconductor Device Modeling |
Lecture 37 |
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Semiconductor Device Modeling |
Lecture 38 |
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Semiconductor Device Modeling |
Lecture 39 |
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Semiconductor Device Modeling |
Lecture 40 |
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Semiconductor Device Modeling |
Lecture 41 |
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Semiconductor Device Modeling |
Lecture 42 |
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Semiconductor Device Modeling |
Lecture 43 |
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Semiconductor Device Modeling |
Lecture 44 |
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Semiconductor Device Modeling |
Lecture 45 |
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Semiconductor Device Modeling |
Lecture 46 |
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Semiconductor Device Modeling |
Lecture 47 |
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Semiconductor Device Modeling |
Lecture 48 |
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Semiconductor Device Modeling |
Lecture 49 |
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Semiconductor Device Modeling |
Lecture 50 |
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Semiconductor Device Modeling |
Lecture 51 |
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Semiconductor Device Modeling |
Lecture 52 |
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Semiconductor Device Modeling |
Lecture 53 |
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Semiconductor Device Modeling |
Lecture 54 |
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Semiconductor Device Modeling |
Lecture 55 |
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Semiconductor Device Modeling |
Lecture 56 |
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Semiconductor Device Modeling |
Lecture 57 |
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VLSI Data Conversion Circuits |
Lecture 1 - Introduction to Data Conversion |
Link |
VLSI Data Conversion Circuits |
Lecture 2 - Sampling-1 |
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VLSI Data Conversion Circuits |
Lecture 3 - Sampling-2 |
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VLSI Data Conversion Circuits |
Lecture 4 - Nonidealities in Samples |
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VLSI Data Conversion Circuits |
Lecture 5 - Noise due to Sampling |
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VLSI Data Conversion Circuits |
Lecture 6 - Distortion in a Sampling Switch |
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VLSI Data Conversion Circuits |
Lecture 7 - Gate Boosted Switches-1 |
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VLSI Data Conversion Circuits |
Lecture 8 - Gate Boosted Switches-2 |
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VLSI Data Conversion Circuits |
Lecture 9 - Charge Injection |
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VLSI Data Conversion Circuits |
Lecture 10 - S/H Characterization-1 |
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VLSI Data Conversion Circuits |
Lecture 11 - S/H Characterization-2 |
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VLSI Data Conversion Circuits |
Lecture 12 - FFTs and Leakage |
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VLSI Data Conversion Circuits |
Lecture 13 - Spectral Windows-1 |
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VLSI Data Conversion Circuits |
Lecture 14 - Spectral Windows-2 |
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VLSI Data Conversion Circuits |
Lecture 15 - ADC/DAC Definition |
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VLSI Data Conversion Circuits |
Lecture 16 - Quantization Noise-1 |
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VLSI Data Conversion Circuits |
Lecture 17 - Quantization Noise-2 |
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VLSI Data Conversion Circuits |
Lecture 18 - Over Sampling and Noise Shaping |
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VLSI Data Conversion Circuits |
Lecture 19 - Delta-Sigma Modulation-1 |
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VLSI Data Conversion Circuits |
Lecture 20 - Delta-Sigma Modulation-2 |
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VLSI Data Conversion Circuits |
Lecture 21 - Linearized Analysis |
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VLSI Data Conversion Circuits |
Lecture 22 - Stability of Delta Sigma Modulators |
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VLSI Data Conversion Circuits |
Lecture 23 - High Order DSMs |
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VLSI Data Conversion Circuits |
Lecture 24 - NTF Design and Tradeoffs |
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VLSI Data Conversion Circuits |
Lecture 25 - Single bit Modulators |
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VLSI Data Conversion Circuits |
Lecture 26 - Loop Filter Architectures |
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VLSI Data Conversion Circuits |
Lecture 27 - Continous-time Delta Sigma Modulation |
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VLSI Data Conversion Circuits |
Lecture 28 - Implicit Antialiasing |
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VLSI Data Conversion Circuits |
Lecture 29 - Modulators with NRZ and Impulsive DACs |
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VLSI Data Conversion Circuits |
Lecture 30 - High Order CTDSMs |
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VLSI Data Conversion Circuits |
Lecture 31 - CTDM Design |
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VLSI Data Conversion Circuits |
Lecture 32 - Excess Loop Delay (ELD) |
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VLSI Data Conversion Circuits |
Lecture 33 - ELD Compensation |
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VLSI Data Conversion Circuits |
Lecture 34 - Effect of Clock Jitter on CTDSMs-1 |
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VLSI Data Conversion Circuits |
Lecture 35 - Effect of Clock Jitter on CTDSMs-2 |
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VLSI Data Conversion Circuits |
Lecture 36 - Dynamic Range Scaling |
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VLSI Data Conversion Circuits |
Lecture 37 - Simulation of CTDSMs |
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VLSI Data Conversion Circuits |
Lecture 38 - Integrator Design-1 |
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VLSI Data Conversion Circuits |
Lecture 39 - Integrator Design-2 |
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VLSI Data Conversion Circuits |
Lecture 40 - Flash ADC Design |
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VLSI Data Conversion Circuits |
Lecture 41 - Latches and Metastability |
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VLSI Data Conversion Circuits |
Lecture 42 - Offset in a Latch-1 |
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VLSI Data Conversion Circuits |
Lecture 43 - Offset in a Latch-2 Auto Zeroing |
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VLSI Data Conversion Circuits |
Lecture 44 - Auto Zeroing-2 |
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VLSI Data Conversion Circuits |
Lecture 45 - Auto Zeroing-3 |
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VLSI Data Conversion Circuits |
Lecture 46 - Auto Zeroing in flash ADCs |
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VLSI Data Conversion Circuits |
Lecture 47 - Flash ADCs Case Study |
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VLSI Data Conversion Circuits |
Lecture 48 - Flash ADC Case Study |
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VLSI Data Conversion Circuits |
Lecture 49 - Flash ADC in a Delta Sigma Loop |
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VLSI Data Conversion Circuits |
Lecture 50 - DAC Basics |
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VLSI Data Conversion Circuits |
Lecture 51 - Binary and Themometer DACs |
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VLSI Data Conversion Circuits |
Lecture 52 - Segmented DACs |
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VLSI Data Conversion Circuits |
Lecture 53 - Optimal DAC Segmentation |
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VLSI Data Conversion Circuits |
Lecture 54 - DAC Nonlinearities |
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VLSI Data Conversion Circuits |
Lecture 55 - Current Steering DACs-1 |
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VLSI Data Conversion Circuits |
Lecture 56 - Current Steering DACs-2 |
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VLSI Data Conversion Circuits |
Lecture 57 - DAC Mismatches in DSMs |
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VLSI Data Conversion Circuits |
Lecture 58 - Calibration and Randomization |
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VLSI Data Conversion Circuits |
Lecture 59 - Dynamic Element Matching-1 |
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VLSI Data Conversion Circuits |
Lecture 60 - Dynamic Element Matching-2 |
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Digital Circuits and Systems |
Lecture 1 - Introduction To Digital Circuits |
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Digital Circuits and Systems |
Lecture 2 - Introduction To Digital Circuits |
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Digital Circuits and Systems |
Lecture 3 - Combinational Logic Basics |
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Digital Circuits and Systems |
Lecture 4 - Combinational Circuits |
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Digital Circuits and Systems |
Lecture 5 - Logic Simplification |
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Digital Circuits and Systems |
Lecture 6 - Karnaugh Maps And Implicants |
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Digital Circuits and Systems |
Lecture 7 - Logic Minimization Using Karnaugh Maps |
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Digital Circuits and Systems |
Lecture 8 - Karnaugh Map Minimization Using Maxterms |
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Digital Circuits and Systems |
Lecture 9 - Code Converters |
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Digital Circuits and Systems |
Lecture 10 - Parity Generators And Display Decoder |
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Digital Circuits and Systems |
Lecture 11 - Arithmetic Circuits |
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Digital Circuits and Systems |
Lecture 12 - Carry Look Ahead Adders |
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Digital Circuits and Systems |
Lecture 13 - Subtractors |
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Digital Circuits and Systems |
Lecture 14 - 2?'S Complement Subtractor and BCD Adder |
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Digital Circuits and Systems |
Lecture 15 - Array Multiplier |
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Digital Circuits and Systems |
Lecture 16 - Introduction to Sequential Circuits |
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Digital Circuits and Systems |
Lecture 17 - S-R, J-K and D Flip Flops |
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Digital Circuits and Systems |
Lecture 18 - J-K and T Flip Flops |
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Digital Circuits and Systems |
Lecture 19 - Triggering Mechanisms of Flip Flops and Counters |
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Digital Circuits and Systems |
Lecture 20 - Up/Down Counters |
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Digital Circuits and Systems |
Lecture 21 - Shift Registers |
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Digital Circuits and Systems |
Lecture 22 - Application of shift Registers |
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Digital Circuits and Systems |
Lecture 23 - State Machines |
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Digital Circuits and Systems |
Lecture 24 - Design of Synchronous Sequential Circuits |
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Digital Circuits and Systems |
Lecture 25 - Design using J-K Flip Flop |
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Digital Circuits and Systems |
Lecture 26 - Mealy and Moore Circuits |
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Digital Circuits and Systems |
Lecture 27 - Pattern Detector |
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Digital Circuits and Systems |
Lecture 28 - MSI and LSI Based Design |
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Digital Circuits and Systems |
Lecture 29 - Multiplexer Based Design |
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Digital Circuits and Systems |
Lecture 30 - Encoders and Decoders |
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Digital Circuits and Systems |
Lecture 31 - Programmable Logic Devices |
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Digital Circuits and Systems |
Lecture 32 - Design using Programmable Logic Devices |
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Digital Circuits and Systems |
Lecture 33 - Design using Programmable Logic Devices (Continued) |
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Digital Circuits and Systems |
Lecture 34 - MSI and LSI based Implementation of Sequential Circuits |
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Digital Circuits and Systems |
Lecture 35 - MSI and LSI based Implementation of Sequential Circuits (Continued) |
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Digital Circuits and Systems |
Lecture 36 - Design of circuits using MSI sequential blocks |
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Digital Circuits and Systems |
Lecture 37 - System Design Example |
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Digital Circuits and Systems |
Lecture 38 - System Design Example (Continued) |
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Digital Circuits and Systems |
Lecture 39 - System Design using the concept of controllers |
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Digital Circuits and Systems |
Lecture 40 - System Design using the concept of controllers (Continued) |
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Electronics for Analog Signal Processing - I |
Lecture 1 - Introduction |
Link |
Electronics for Analog Signal Processing - I |
Lecture 2 - Diode |
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Electronics for Analog Signal Processing - I |
Lecture 3 - Diode characteristics |
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Electronics for Analog Signal Processing - I |
Lecture 4 - Rectifier |
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Electronics for Analog Signal Processing - I |
Lecture 5 - Voltage Multiplier |
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Electronics for Analog Signal Processing - I |
Lecture 6 - Full Wave Rectifier and Peak Detector |
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Electronics for Analog Signal Processing - I |
Lecture 7 - Diode as a GATE |
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Electronics for Analog Signal Processing - I |
Lecture 8 - Analog GATE |
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Electronics for Analog Signal Processing - I |
Lecture 9 - Small Signal Analysis of Diode Circuit |
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Electronics for Analog Signal Processing - I |
Lecture 10 - Zener Regulator and Voltage Regulator |
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Electronics for Analog Signal Processing - I |
Lecture 11 - Varactor Diode |
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Electronics for Analog Signal Processing - I |
Lecture 12 - Amplifiers |
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Electronics for Analog Signal Processing - I |
Lecture 13 - Cascading of Amplifiers |
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Electronics for Analog Signal Processing - I |
Lecture 14 - Cascading of Amplifiers |
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Electronics for Analog Signal Processing - I |
Lecture 15 - h and g Parameters |
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Electronics for Analog Signal Processing - I |
Lecture 16 - Two Port Analysis |
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Electronics for Analog Signal Processing - I |
Lecture 17 - Amplifier Applications |
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Electronics for Analog Signal Processing - I |
Lecture 18 - Frequency Limitations Of An Amplifier |
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Electronics for Analog Signal Processing - I |
Lecture 19 - Distortion In Amplifiers |
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Electronics for Analog Signal Processing - I |
Lecture 20 - Bipolar Junction Transistor |
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Electronics for Analog Signal Processing - I |
Lecture 21 - Transistor (BJT) Inverter |
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Electronics for Analog Signal Processing - I |
Lecture 22 - Transistor Biasing |
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Electronics for Analog Signal Processing - I |
Lecture 23 - Stable Way of Biasing |
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Electronics for Analog Signal Processing - I |
Lecture 24 - Common Emitter Amplifiers |
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Electronics for Analog Signal Processing - I |
Lecture 25 - Transistor Biasing Using Single Supply |
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Electronics for Analog Signal Processing - I |
Lecture 26 - Metal Oxide Semiconductor |
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Electronics for Analog Signal Processing - I |
Lecture 27 - Construction of a MOSFET |
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Electronics for Analog Signal Processing - I |
Lecture 28 - Varieties of MOSFETS and JFETS |
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Electronics for Analog Signal Processing - I |
Lecture 29 - Characteristics of MOSFET |
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Electronics for Analog Signal Processing - I |
Lecture 30 - Cascading Amplifiers |
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Electronics for Analog Signal Processing - I |
Lecture 31 - Cascading (Direct Coupling) |
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Electronics for Analog Signal Processing - I |
Lecture 32 - The Differential Amplifiers |
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Electronics for Analog Signal Processing - I |
Lecture 33 - BJT Differential Amplifiers |
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Electronics for Analog Signal Processing - I |
Lecture 34 - MOSFET Differential Amplifiers |
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Electronics for Analog Signal Processing - I |
Lecture 35 - Cascading Differential Amplifiers |
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Electronics for Analog Signal Processing - I |
Lecture 36 - Current Source and Current Sink |
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Electronics for Analog Signal Processing - I |
Lecture 37 - NMOS Inverters and CMOS Inverters |
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Electronics for Analog Signal Processing - I |
Lecture 38 - Active Components used in Electronics |
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Electronics for Analog Signal Processing - II |
Lecture 1 - Feedback Theory |
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Electronics for Analog Signal Processing - II |
Lecture 2 - Negative Feedback |
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Electronics for Analog Signal Processing - II |
Lecture 3 - Negative Feedback |
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Electronics for Analog Signal Processing - II |
Lecture 4 - Y-Feedback |
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Electronics for Analog Signal Processing - II |
Lecture 5 - h and g Negative Feedback |
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Electronics for Analog Signal Processing - II |
Lecture 6 - g Feedback with Mosfet |
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Electronics for Analog Signal Processing - II |
Lecture 7 - Operational Amplifier in Negative Feedback |
Link |
Electronics for Analog Signal Processing - II |
Lecture 8 - Operational Amplifier in Negative Feedback |
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Electronics for Analog Signal Processing - II |
Lecture 9 - Positive Feedback (Regenerative) |
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Electronics for Analog Signal Processing - II |
Lecture 10 - Experimental Demonstration |
Link |
Electronics for Analog Signal Processing - II |
Lecture 11 - Instrumentation Amplifiers |
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Electronics for Analog Signal Processing - II |
Lecture 12 - Active Filters |
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Electronics for Analog Signal Processing - II |
Lecture 13 - Simulation of Harmonic Oscillators |
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Electronics for Analog Signal Processing - II |
Lecture 14 - Oscillators |
Link |
Electronics for Analog Signal Processing - II |
Lecture 15 - Oscillators |
Link |
Electronics for Analog Signal Processing - II |
Lecture 16 - Frequency Compensation in Negative Feedback |
Link |
Electronics for Analog Signal Processing - II |
Lecture 17 - Frequency Compensation |
Link |
Electronics for Analog Signal Processing - II |
Lecture 18 - Wideband (video) Amplifiers |
Link |
Electronics for Analog Signal Processing - II |
Lecture 19 - Wideband Amplifiers |
Link |
Electronics for Analog Signal Processing - II |
Lecture 20 - ICs For Video And Tuned Amplifier Applications |
Link |
Electronics for Analog Signal Processing - II |
Lecture 21 - Power Amplifier |
Link |
Electronics for Analog Signal Processing - II |
Lecture 22 - Power Amplifier |
Link |
Electronics for Analog Signal Processing - II |
Lecture 23 - Class B and C Power Amplifiers |
Link |
Electronics for Analog Signal Processing - II |
Lecture 24 - Class-B Power Amplifier Load and Drive |
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Electronics for Analog Signal Processing - II |
Lecture 25 - Control Circuits |
Link |
Electronics for Analog Signal Processing - II |
Lecture 26 - Voltage Regulators |
Link |
Electronics for Analog Signal Processing - II |
Lecture 27 - Voltage Regulators |
Link |
Electronics for Analog Signal Processing - II |
Lecture 28 - Voltage Regulators |
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Electronics for Analog Signal Processing - II |
Lecture 29 - Convertors |
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Electronics for Analog Signal Processing - II |
Lecture 30 - Analog Multipliers (Modems & Mixers) |
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Electronics for Analog Signal Processing - II |
Lecture 31 - Log-Antilog Multipliers |
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Electronics for Analog Signal Processing - II |
Lecture 32 - Multipliers |
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Electronics for Analog Signal Processing - II |
Lecture 33 - Multipliers |
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Electronics for Analog Signal Processing - II |
Lecture 34 - AGC/AVC |
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Electronics for Analog Signal Processing - II |
Lecture 35 - AGC/AVC |
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Electronics for Analog Signal Processing - II |
Lecture 36 - Experimental Demonstration |
Link |
Electronics for Analog Signal Processing - II |
Lecture 37 - PLL (Phase Locked Loop) |
Link |
Electronics for Analog Signal Processing - II |
Lecture 38 - PLL (Phase Locked Loop) |
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Electronics for Analog Signal Processing - II |
Lecture 39 - Lock Range Capture Range and FSK and FM |
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High Speed Devices and Circuits |
Lecture 1 - Introduction to Basic concepts |
Link |
High Speed Devices and Circuits |
Lecture 2 - Requirements for high speed circuits, devices and materials |
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High Speed Devices and Circuits |
Lecture 3 - Classification and properties of semiconductor devices |
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High Speed Devices and Circuits |
Lecture 4 - Ternary compound semiconductors and their applications |
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High Speed Devices and Circuits |
Lecture 5 - Ternary compound semiconductors and their applications (Continued.) |
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High Speed Devices and Circuits |
Lecture 6 - Crystal structures in GaAs |
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High Speed Devices and Circuits |
Lecture 7 - Dopants and impurities in GaAs and InP |
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High Speed Devices and Circuits |
Lecture 8 - Brief Overview of GaAs Technology for High Speed Devices |
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High Speed Devices and Circuits |
Lecture 9 - Epitaxial Techniques for GaAs and high speed devices |
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High Speed Devices and Circuits |
Lecture 10 - MBE and LPE for GaAs Epitoxy |
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High Speed Devices and Circuits |
Lecture 11 - GaAs and InP devices for Microelectronics |
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High Speed Devices and Circuits |
Lecture 12 - Metal Semiconductor contacts for MESFET |
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High Speed Devices and Circuits |
Lecture 13 - Metal Semiconductor contacts for MESFET (Continued.) |
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High Speed Devices and Circuits |
Lecture 14 - Metal Semiconductor contacts for MESFET (Continued.) |
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High Speed Devices and Circuits |
Lecture 15 - Ohmic contacts on semiconductors |
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High Speed Devices and Circuits |
Lecture 16 - Fermi level pinning, I V characteristics of Schottky Barrier Diodes |
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High Speed Devices and Circuits |
Lecture 17 - Schottky Barrier Diodes I V characteristics of Non idealities -1 |
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High Speed Devices and Circuits |
Lecture 18 - Schottky Barrier Diodes I V characteristics of Non idealities -1 |
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High Speed Devices and Circuits |
Lecture 19 - Causes of Non idealities in the Schottky Barrier Diodes (I V characteristics) |
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High Speed Devices and Circuits |
Lecture 20 - MESFET operations and I V characteristics |
Link |
High Speed Devices and Circuits |
Lecture 21 - MESFET I V characteristics Shockley's Model |
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High Speed Devices and Circuits |
Lecture 22 - MESFET Shockley's Model and velocity saturation effect |
Link |
High Speed Devices and Circuits |
Lecture 23 - MESFET velocity saturation effect on drain current saturation |
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High Speed Devices and Circuits |
Lecture 24 - MESFET : Drain current saturation Ids due to velocity saturation |
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High Speed Devices and Circuits |
Lecture 25 - MESFET : Effects of channel length and gate length on IDS and gm |
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High Speed Devices and Circuits |
Lecture 26 - MESFET : Effects of velocity saturation and velocity field characteristics |
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High Speed Devices and Circuits |
Lecture 27 - MESFET : Effects of velocity field characteristics - Overshoot effects |
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High Speed Devices and Circuits |
Lecture 28 - MESFET : Velocity overshoot effect and self aligned MESFET SAINT |
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High Speed Devices and Circuits |
Lecture 29 - Self Aligned MESFET SAINT Threshold Voltage and Sub Threshold current |
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High Speed Devices and Circuits |
Lecture 30 - Hetero junctions |
Link |
High Speed Devices and Circuits |
Lecture 31 - Hetero junctions and high electron Mobility Transistor (HEMT) |
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High Speed Devices and Circuits |
Lecture 32 - Hetero junctions and high electron Mobility Transistor (HEMT) (Continued.) |
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High Speed Devices and Circuits |
Lecture 33 - High Electron Mobility Transistor |
Link |
High Speed Devices and Circuits |
Lecture 34 - HEMT off voltage, I-V characteristics and trans conductance |
Link |
High Speed Devices and Circuits |
Lecture 35 - I-V characteristics and trans conductance and optimization |
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High Speed Devices and Circuits |
Lecture 36 - Indium phosphide based HEMT |
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High Speed Devices and Circuits |
Lecture 37 - Pseudomorphic HEMT and Hetrojunction Bipolar Transistors |
Link |
High Speed Devices and Circuits |
Lecture 38 - Hetero junction Bipolar Transistors (HBT) |
Link |
High Speed Devices and Circuits |
Lecture 39 - Hetero junction Bipolar Transistors (HBT) (Continued.) |
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High Speed Devices and Circuits |
Lecture 40 - Hetero junction Bipolar Transistors (HBT) (Continued.) |
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High Speed Devices and Circuits |
Lecture 41 - Hetero junction Bipolar Transistors (HBT) (Continued.) |
Link |
Solid State Devices |
Lecture 1 - Introduction on Solid State Devices |
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Solid State Devices |
Lecture 2 - Evolution and Uniqueness of Semiconductor |
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Solid State Devices |
Lecture 3 - Equilibrium Carrier Concentration |
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Solid State Devices |
Lecture 4 - Equilibrium Carrier Concentration |
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Solid State Devices |
Lecture 5 - Equilibrium Carrier Concentration |
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Solid State Devices |
Lecture 6 - Equilibrium Carrier Concentration |
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Solid State Devices |
Lecture 7 - Equilibrium Carrier Concentration |
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Solid State Devices |
Lecture 8 - Equilibrium Carrier Concentration |
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Solid State Devices |
Lecture 9 - Equilibrium Carrier Concentration |
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Solid State Devices |
Lecture 10 - Equilibrium Carrier Concentration |
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Solid State Devices |
Lecture 11 - Equilibrium Carrier Concentration |
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Solid State Devices |
Lecture 12 - Carrier Transport |
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Solid State Devices |
Lecture 13 - Carrier Transport (Continued.) |
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Solid State Devices |
Lecture 14 - Carrier Transport (Continued.) |
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Solid State Devices |
Lecture 15 - Excess Carriers |
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Solid State Devices |
Lecture 16 - Excess Carriers (Continued.) |
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Solid State Devices |
Lecture 17 - Procedure for Device Analysis |
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Solid State Devices |
Lecture 18 - Procedure for Device Analysis (Continued.) |
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Solid State Devices |
Lecture 19 - PN Junction |
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Solid State Devices |
Lecture 20 - PN Junction (Continued.) |
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Solid State Devices |
Lecture 21 - PN Junction (Continued.) |
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Solid State Devices |
Lecture 22 - PN Junction (Continued.) |
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Solid State Devices |
Lecture 23 - PN Junction (Continued.) |
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Solid State Devices |
Lecture 24 - PN Junction (Continued.) |
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Solid State Devices |
Lecture 25 - PN Junction (Continued.) |
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Solid State Devices |
Lecture 26 - Bipolar Junction Transistor |
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Solid State Devices |
Lecture 27 - Bipolar Junction Transistor (Continued.) |
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Solid State Devices |
Lecture 28 - Bipolar Junction Transistor (Continued.) |
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Solid State Devices |
Lecture 29 - Bipolar Junction Transistor (Continued.) |
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Solid State Devices |
Lecture 30 - Bipolar Junction Transistor (Continued.) |
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Solid State Devices |
Lecture 31 - Bipolar Junction Transistor (Continued.) |
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Solid State Devices |
Lecture 32 - Bipolar Junction Transistor (Continued.) |
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Solid State Devices |
Lecture 33 - Metal-Oxide-Semiconductor (MOS) Junction |
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Solid State Devices |
Lecture 34 - Metal-Oxide-Semiconductor (MOS) Junction (Continued.) |
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Solid State Devices |
Lecture 35 - Metal-Oxide-Semiconductor (MOS) Junction (Continued.) |
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Solid State Devices |
Lecture 36 - Metal-Oxide-Semiconductor (MOS) Junction (Continued.) |
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Solid State Devices |
Lecture 37 - Metal-Oxide-Semiconductor (MOS) Junction (Continued.) |
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Solid State Devices |
Lecture 38 - MOS Field Effect Transistor |
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Solid State Devices |
Lecture 39 - MOS Field Effect Transistor (Continued.) |
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Solid State Devices |
Lecture 40 - MOS Field Effect Transistor (Continued.) |
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Solid State Devices |
Lecture 41 - MOS Field Effect Transistor (Continued.) |
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Solid State Devices |
Lecture 42 - The Final Lecture - Conclusion |
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VLSI Circuits |
Lecture 1 - Introduction to VLSI Design |
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VLSI Circuits |
Lecture 2 - Combinational Circuit Design |
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VLSI Circuits |
Lecture 3 - Programmable Logic Devices |
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VLSI Circuits |
Lecture 4 - Programmable Array Logic |
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VLSI Circuits |
Lecture 5 - Review of Flip-Flops |
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VLSI Circuits |
Lecture 6 - Sequential Circuits |
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VLSI Circuits |
Lecture 7 - Sequential Circuit Design |
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VLSI Circuits |
Lecture 8 - MSI Implementation of Sequential Circuits |
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VLSI Circuits |
Lecture 9 - Design of Sequential Circuits using One Hot Controller |
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VLSI Circuits |
Lecture 10 - Verilog Modeling of Combinational Circuits |
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VLSI Circuits |
Lecture 11 - Modeling of Verilog Sequential Circuits - Core Statements |
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VLSI Circuits |
Lecture 12 - Modeling of Verilog Sequential Circuits - Core Statements(Continued.) |
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VLSI Circuits |
Lecture 13 - RTL Coding Guidelines |
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VLSI Circuits |
Lecture 14 - Coding Organization - Complete Realization |
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VLSI Circuits |
Lecture 15 - Coding Organization - Complete Realization (Continued.) |
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VLSI Circuits |
Lecture 16 - Writing a Test Bench |
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VLSI Circuits |
Lecture 17 - System Design using ASM Chart |
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VLSI Circuits |
Lecture 18 - Example of System Design using ASM Chart |
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VLSI Circuits |
Lecture 19 - Examples of System Design using Sequential Circuits |
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VLSI Circuits |
Lecture 20 - Examples of System Design using Sequential Circuits (Continued.) |
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VLSI Circuits |
Lecture 21 - Microprogrammed Design |
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VLSI Circuits |
Lecture 22 - Microprogrammed Design (Continued.) |
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VLSI Circuits |
Lecture 23 - Design Flow of VLSI Circuits |
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VLSI Circuits |
Lecture 24 - Simulation of Combinational Circuits |
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VLSI Circuits |
Lecture 25 - Simulation of Combinational and Sequential Circuits |
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VLSI Circuits |
Lecture 26 - Analysis of Waveforms using Modelsim |
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VLSI Circuits |
Lecture 27 - Analysis of Waveforms using Modelsim (Continued.) |
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VLSI Circuits |
Lecture 28 - ModelSim Simulation Tool |
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VLSI Circuits |
Lecture 29 - Synthesis Tool |
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VLSI Circuits |
Lecture 30 - Synthesis Tool (Continued.) |
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VLSI Circuits |
Lecture 31 - Synplify Tool - Schematic Circuit Diagram View |
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VLSI Circuits |
Lecture 32 - Technology View using Synplify Tool |
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VLSI Circuits |
Lecture 33 - Synopsys Full and Parallel Cases |
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VLSI Circuits |
Lecture 34 - Xilinx Place & Route Tool |
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VLSI Circuits |
Lecture 35 - Xilinx Place & Route Tool (Continued.) |
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VLSI Circuits |
Lecture 36 - PCI Arbiter Design using ASM Chart |
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VLSI Circuits |
Lecture 37 - Design of Memories - ROM |
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VLSI Circuits |
Lecture 38 - Design of Memories- RAM |
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VLSI Circuits |
Lecture 39 - Design of External RAM |
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VLSI Circuits |
Lecture 40 - Design of Arithmetic Circuits |
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VLSI Circuits |
Lecture 41 - Design of Arithmetic Circuits (Continued.) |
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VLSI Circuits |
Lecture 42 - Design of Arithmetic Circuits (Continued.) |
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VLSI Circuits |
Lecture 43 - System Design Examples |
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VLSI Circuits |
Lecture 44 - System Design Examples (Continued.) |
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VLSI Circuits |
Lecture 45 - System Design Examples (Continued.) |
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VLSI Circuits |
Lecture 46 - System Design Examples (Continued.) |
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VLSI Circuits |
Lecture 47 - System Design Examples (Continued.) |
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VLSI Circuits |
Lecture 48 - System Design Examples using FPGA Board |
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VLSI Circuits |
Lecture 49 - System Design Examples using FPGA Board (Continued.) |
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VLSI Circuits |
Lecture 50 - Advanced Features of Xilinx Project Navigator |
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VLSI Circuits |
Lecture 51 - System Design Examples using FPGA Board (Continued.) |
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VLSI Circuits |
Lecture 52 - System Design Examples using FPGA Board (Continued.) |
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VLSI Circuits |
Lecture 53 - System Design Examples using FPGA Board (Continued.) |
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VLSI Circuits |
Lecture 54 - System Design Examples using FPGA Board (Continued.) |
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VLSI Circuits |
Lecture 55 - Project Design Suggested for FPGA/ASIC Implementations |
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VLSI Technology |
Lecture 1 - Introduction on VLSI Design |
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VLSI Technology |
Lecture 2 - Bipolar Junction Transistor Fabrication |
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VLSI Technology |
Lecture 3 - MOSFET Fabrication for IC |
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VLSI Technology |
Lecture 4 - Crystal Structure of Si |
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VLSI Technology |
Lecture 5 - Crystal Structure (Continued.) |
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VLSI Technology |
Lecture 6 - Defects in Crystal + Crystal growth |
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VLSI Technology |
Lecture 7 - Crystal growth Contd + Epitaxy I |
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VLSI Technology |
Lecture 8 - Epitaxy II - Vapour phase Epitaxy |
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VLSI Technology |
Lecture 9 - Epitaxy III - Doping during Epitaxy |
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VLSI Technology |
Lecture 10 - Molecular beam Epitaxy |
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VLSI Technology |
Lecture 11 - Oxidation I - Kinetics of Oxidation |
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VLSI Technology |
Lecture 12 - Oxidation II - Oxidation rate constants |
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VLSI Technology |
Lecture 13 - Oxidation III - Dopant Redistribution |
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VLSI Technology |
Lecture 14 - Oxidation IV - Oxide Charges |
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VLSI Technology |
Lecture 15 - Diffusion I - Theory of Diffusion |
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VLSI Technology |
Lecture 16 - Diffusion II - Infinite Source |
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VLSI Technology |
Lecture 17 - Diffusion III - Actual Doping Profiles |
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VLSI Technology |
Lecture 18 - Diffusion IV - Diffusion Systems |
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VLSI Technology |
Lecture 19 - Ion - Implantation Process |
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VLSI Technology |
Lecture 20 - Ion - Implantation Process |
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VLSI Technology |
Lecture 21 - Annealing of Damages |
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VLSI Technology |
Lecture 22 - Masking during Implantation |
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VLSI Technology |
Lecture 23 - Lithography - I |
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VLSI Technology |
Lecture 24 - Lithography - II |
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VLSI Technology |
Lecture 25 - Wet Chemical Etching |
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VLSI Technology |
Lecture 26 - Dry Etching |
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VLSI Technology |
Lecture 27 - Plasma Etching Systems |
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VLSI Technology |
Lecture 28 - Etching of Si,Sio2,SiN and other materials |
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VLSI Technology |
Lecture 29 - Plasma Deposition Process |
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VLSI Technology |
Lecture 30 - Metallization - I |
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VLSI Technology |
Lecture 31 - Problems in Aluminium Metal contacts |
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VLSI Technology |
Lecture 32 - IC BJT - From junction isolation to LOCOS |
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VLSI Technology |
Lecture 33 - Problems in LOCOS + Trench isolation |
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VLSI Technology |
Lecture 34 - More about BJT Fabrication and Realization |
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VLSI Technology |
Lecture 35 - Circuits + Transistors in ECL Circuits |
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VLSI Technology |
Lecture 36 - MOSFET I - Metal gate vs. Self-aligned Poly-gate |
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VLSI Technology |
Lecture 37 - MOSFET II Tailoring of Device Parameters |
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VLSI Technology |
Lecture 38 - CMOS Technology |
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VLSI Technology |
Lecture 39 - Latch - up in CMOS |
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VLSI Technology |
Lecture 40 - BICMOS Technology |
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Basic Electrical Circuits |
Lecture 1 - Introduction to the course;Current and Voltage;Kirchhoff's Current and Voltage laws |
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Basic Electrical Circuits |
Lecture 2 - Electrical circuit elements: Voltage and current sources; R, C, L; Voltage sources in series; Example of superposition |
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Basic Electrical Circuits |
Lecture 3 - Elements in series and parallel; Superposition in linear circuits |
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Basic Electrical Circuits |
Lecture 4 - Controlled sources; Determining the characteristics of a two terminal element; Realizing a resistor using a VCCS or a CCVS |
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Basic Electrical Circuits |
Lecture 5 - Nodal analysis of a network with conductances and current sources; Setting up the equations; Conductance matrix; Superposition |
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Basic Electrical Circuits |
Lecture 6 - Circuit analysis; Number of KCL and KVL equations in a circuit; Nodal analysis of a network with conductances and current sources; Setting up the equations; Conductance matrix; |
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Basic Electrical Circuits |
Lecture 7 - Nodal analysis with voltage sources and controlled sources; Brief introduction to modified nodal analysis; Use of supernode to solve circuits with voltage sources; Superposition theorem |
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Basic Electrical Circuits |
Lecture 8 - Mesh analysis of a circuit with resistors and voltage sources; Comparison with nodal analysis; Mesh analysis of circuits with current sources-supermesh |
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Basic Electrical Circuits |
Lecture 9 - Choice of nodal versus mesh analysis; Circuit theorems: Pushing a voltage source through a node, splitting a current source, substitution theorem, superposition |
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Basic Electrical Circuits |
Lecture 10 - Thevenin and Norton (theorem and) equivalent circuits; Power conservation in a circuit |
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Basic Electrical Circuits |
Lecture 11 - Tellegen's theorem; Reciprocity theorem |
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Basic Electrical Circuits |
Lecture 12 - Compensation Theorem; Two ports |
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Basic Electrical Circuits |
Lecture 13 - Two port parameters-y parameters |
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Basic Electrical Circuits |
Lecture 14 - Two port parameters(z, h, and g); Reciprocal two ports |
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Basic Electrical Circuits |
Lecture 15 - Opamp, ideal opamp circuits, non-inverting and inverting amplifiers; Ensuring that the opamp has negative feedback |
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Basic Electrical Circuits |
Lecture 16 - RC circuit natural response; First order differential equation |
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Basic Electrical Circuits |
Lecture 17 - RC (first-order) circuit, complete response with step inputs; Transient(natural) and steady state(forced) responses; Zero-state and zero-input responses |
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Basic Electrical Circuits |
Lecture 18 - Step response of RC circuit with loops of voltage sources and capacitors; RL circuits; RLC circuits |
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Basic Electrical Circuits |
Lecture 19 - Second order(RLC circuit) natural response; Series and prallel RLC circuits; Differential equation-characteristic equation and solutions; Forced response of a second order circuit |
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Basic Electrical Circuits |
Lecture 20 - General formulation of second order(RLC circuit) natural response; Natural frequency and damping/quality factor; Series/parallel RLC circuits; R, L, C in sinusoidal steady state |
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Basic Electrical Circuits |
Lecture 21 - Sinusoidal steady state response of RC and RLC circuits |
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NOC:Basic Electrical Circuits |
Lecture 1 - Preliminaries |
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NOC:Basic Electrical Circuits |
Lecture 2 - Current |
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NOC:Basic Electrical Circuits |
Lecture 3 - Voltage |
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NOC:Basic Electrical Circuits |
Lecture 4 - Electrical elements and circuits |
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NOC:Basic Electrical Circuits |
Lecture 5 - Kirchhoff's current law (KCL) |
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NOC:Basic Electrical Circuits |
Lecture 6 - Kirchhoff's Voltage law (KVL) |
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NOC:Basic Electrical Circuits |
Lecture 7 - Voltage Source |
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NOC:Basic Electrical Circuits |
Lecture 8 - Current Source |
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NOC:Basic Electrical Circuits |
Lecture 9 - Resistor |
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NOC:Basic Electrical Circuits |
Lecture 10 - Capacitor |
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NOC:Basic Electrical Circuits |
Lecture 11 - Inductor |
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NOC:Basic Electrical Circuits |
Lecture 12 - Mutual Inductor |
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NOC:Basic Electrical Circuits |
Lecture 13 - Linearity of Elements |
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NOC:Basic Electrical Circuits |
Lecture 14 - Solutions to the assignment on units 1 and 2 |
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NOC:Basic Electrical Circuits |
Lecture 15 - Series connection-Voltage sources in series |
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NOC:Basic Electrical Circuits |
Lecture 16 - Series connection of R, L, C, current source |
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NOC:Basic Electrical Circuits |
Lecture 17 - Elements in parallel |
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NOC:Basic Electrical Circuits |
Lecture 18 - Current source in series with an element; Voltage source in parallel with an element |
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NOC:Basic Electrical Circuits |
Lecture 19 - Extreme cases: Open and short circuits |
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NOC:Basic Electrical Circuits |
Lecture 20 - Summary |
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NOC:Basic Electrical Circuits |
Lecture 21 - Voltage controlled voltage source (VCVS) |
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NOC:Basic Electrical Circuits |
Lecture 22 - Voltage controlled current source (VCCS) |
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NOC:Basic Electrical Circuits |
Lecture 23 - Current controlled voltage source (CCVS) |
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NOC:Basic Electrical Circuits |
Lecture 24 - Current controlled current source (CCCS) |
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NOC:Basic Electrical Circuits |
Lecture 25 - Realizing a resistance using a VCCS or CCCS |
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NOC:Basic Electrical Circuits |
Lecture 26 - Scaling an element's value using controlled sources |
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NOC:Basic Electrical Circuits |
Lecture 27 - Example calculation |
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NOC:Basic Electrical Circuits |
Lecture 28 - Solution to the assignment on units 3 and 4 |
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NOC:Basic Electrical Circuits |
Lecture 29 - Power and energy absorbed by electrical elements |
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NOC:Basic Electrical Circuits |
Lecture 30 - Power and energy in a resistor |
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NOC:Basic Electrical Circuits |
Lecture 31 - Power and energy in a capacitor |
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NOC:Basic Electrical Circuits |
Lecture 32 - Power and energy in an inductor |
Link |
NOC:Basic Electrical Circuits |
Lecture 33 - Power and energy in a voltage source |
Link |
NOC:Basic Electrical Circuits |
Lecture 34 - Power and energy in a current source |
Link |
NOC:Basic Electrical Circuits |
Lecture 35 - Goals of circuit analysis |
Link |
NOC:Basic Electrical Circuits |
Lecture 36 - Number of independent KCL equations |
Link |
NOC:Basic Electrical Circuits |
Lecture 37 - Number of independent KVL equations and branch relationships |
Link |
NOC:Basic Electrical Circuits |
Lecture 38 - Analysis of circuits with a single independent source |
Link |
NOC:Basic Electrical Circuits |
Lecture 39 - Analysis of circuits with multiple independent sources using superposition |
Link |
NOC:Basic Electrical Circuits |
Lecture 40 - Superposition: Example |
Link |
NOC:Basic Electrical Circuits |
Lecture 41 - Solution to the assignment on units 5 and 6 |
Link |
NOC:Basic Electrical Circuits |
Lecture 42 - What is nodal analysis |
Link |
NOC:Basic Electrical Circuits |
Lecture 43 - Setting up nodal analysis equations |
Link |
NOC:Basic Electrical Circuits |
Lecture 44 - Structure of the conductance matrix |
Link |
NOC:Basic Electrical Circuits |
Lecture 45 - How elements appear in the nodal analysis formulation |
Link |
NOC:Basic Electrical Circuits |
Lecture 46 - Completely solving the circuit starting from nodal analysis |
Link |
NOC:Basic Electrical Circuits |
Lecture 47 - Nodal analysis example |
Link |
NOC:Basic Electrical Circuits |
Lecture 48 - Matrix inversion basics |
Link |
NOC:Basic Electrical Circuits |
Lecture 49 - Nodal analysis with independent voltage sources |
Link |
NOC:Basic Electrical Circuits |
Lecture 50 - Supernode for nodal analysis with independent voltage sources |
Link |
NOC:Basic Electrical Circuits |
Lecture 51 - Nodal analysis with VCCS |
Link |
NOC:Basic Electrical Circuits |
Lecture 52 - Nodal analysis with VCVS |
Link |
NOC:Basic Electrical Circuits |
Lecture 53 - Nodal analysis with CCVS |
Link |
NOC:Basic Electrical Circuits |
Lecture 54 - Nodal analysis with CCCS |
Link |
NOC:Basic Electrical Circuits |
Lecture 55 - Nodal analysis summary |
Link |
NOC:Basic Electrical Circuits |
Lecture 56 - Solution to the assignment on units 7 and 8 |
Link |
NOC:Basic Electrical Circuits |
Lecture 57 - Planar circuits |
Link |
NOC:Basic Electrical Circuits |
Lecture 58 - Mesh currents and their relationship to branch currents |
Link |
NOC:Basic Electrical Circuits |
Lecture 59 - Mesh analysis |
Link |
NOC:Basic Electrical Circuits |
Lecture 60 - Mesh analysis with independent current sources-Supermesh |
Link |
NOC:Basic Electrical Circuits |
Lecture 61 - Mesh analysis with current controlled voltage sources |
Link |
NOC:Basic Electrical Circuits |
Lecture 62 - Mesh analysis with current controlled current sources |
Link |
NOC:Basic Electrical Circuits |
Lecture 63 - Mesh analysis using voltage controlled sources |
Link |
NOC:Basic Electrical Circuits |
Lecture 64 - Nodal analysis versus Mesh analysis |
Link |
NOC:Basic Electrical Circuits |
Lecture 65 - Superposition theorem |
Link |
NOC:Basic Electrical Circuits |
Lecture 66 - Pushing a voltage source through a node |
Link |
NOC:Basic Electrical Circuits |
Lecture 67 - Splitting a current source |
Link |
NOC:Basic Electrical Circuits |
Lecture 68 - Substitution theorem: Current source |
Link |
NOC:Basic Electrical Circuits |
Lecture 69 - Substitution theorem: Voltage source |
Link |
NOC:Basic Electrical Circuits |
Lecture 70 - Substituting a voltage or current source with a resistor |
Link |
NOC:Basic Electrical Circuits |
Lecture 71 - Solutions |
Link |
NOC:Basic Electrical Circuits |
Lecture 72 - Extensions to Superposition and Substitution theorem |
Link |
NOC:Basic Electrical Circuits |
Lecture 73 - Thevenin's theorem |
Link |
NOC:Basic Electrical Circuits |
Lecture 74 - Worked out example: Thevenin's theorem |
Link |
NOC:Basic Electrical Circuits |
Lecture 75 - Norton's theorem |
Link |
NOC:Basic Electrical Circuits |
Lecture 76 - Worked out example: Norton's theorem |
Link |
NOC:Basic Electrical Circuits |
Lecture 77 - Maximum power transfer theorem |
Link |
NOC:Basic Electrical Circuits |
Lecture 78 - Preliminaries. |
Link |
NOC:Basic Electrical Circuits |
Lecture 79 - Two port parameters |
Link |
NOC:Basic Electrical Circuits |
Lecture 80 - y parameters |
Link |
NOC:Basic Electrical Circuits |
Lecture 81 - y parameters: Examples |
Link |
NOC:Basic Electrical Circuits |
Lecture 82 - Solutions. |
Link |
NOC:Basic Electrical Circuits |
Lecture 83 - z parameters |
Link |
NOC:Basic Electrical Circuits |
Lecture 84 - z parameters: Examples |
Link |
NOC:Basic Electrical Circuits |
Lecture 85 - h parameters |
Link |
NOC:Basic Electrical Circuits |
Lecture 86 - h parameters: Examples |
Link |
NOC:Basic Electrical Circuits |
Lecture 87 - g parameters |
Link |
NOC:Basic Electrical Circuits |
Lecture 88 - g parameters: Examples |
Link |
NOC:Basic Electrical Circuits |
Lecture 89 - Calculations with a two-port element |
Link |
NOC:Basic Electrical Circuits |
Lecture 90 - Calculations with a two-port element. |
Link |
NOC:Basic Electrical Circuits |
Lecture 91 - Degenerate cases |
Link |
NOC:Basic Electrical Circuits |
Lecture 92 - Relationships between different two-port parameters |
Link |
NOC:Basic Electrical Circuits |
Lecture 93 - Equivalent circuit representation for two ports |
Link |
NOC:Basic Electrical Circuits |
Lecture 94 - Reciprocity |
Link |
NOC:Basic Electrical Circuits |
Lecture 95 - Proof of reciprocity of resistive two-ports |
Link |
NOC:Basic Electrical Circuits |
Lecture 96 - Proof for 4-terminal two-ports |
Link |
NOC:Basic Electrical Circuits |
Lecture 97 - Reciprocity in terms of different two-port parameters |
Link |
NOC:Basic Electrical Circuits |
Lecture 98 - Reciprocity in circuits containing controlled sources |
Link |
NOC:Basic Electrical Circuits |
Lecture 99 - Examples |
Link |
NOC:Basic Electrical Circuits |
Lecture 100 - Solutions.. |
Link |
NOC:Basic Electrical Circuits |
Lecture 101 - Feedback amplifier using an opamp |
Link |
NOC:Basic Electrical Circuits |
Lecture 102 - Ideal opamp |
Link |
NOC:Basic Electrical Circuits |
Lecture 103 - Negative feedback around the opamp |
Link |
NOC:Basic Electrical Circuits |
Lecture 104 - Finding opamp signs for negative feedback |
Link |
NOC:Basic Electrical Circuits |
Lecture 105 - Example: Determining opamp sign for negative feedback |
Link |
NOC:Basic Electrical Circuits |
Lecture 106 - Analysis of circuits with opamps |
Link |
NOC:Basic Electrical Circuits |
Lecture 107 - Inverting amplifier |
Link |
NOC:Basic Electrical Circuits |
Lecture 108 - Summing amplifier |
Link |
NOC:Basic Electrical Circuits |
Lecture 109 - Instrumentation amplifier |
Link |
NOC:Basic Electrical Circuits |
Lecture 110 - Negative resistance and Miller effect |
Link |
NOC:Basic Electrical Circuits |
Lecture 111 - Finding opamp signs for negative feedback-circuits with multiple opamps |
Link |
NOC:Basic Electrical Circuits |
Lecture 112 - Opamp supply voltages and saturation |
Link |
NOC:Basic Electrical Circuits |
Lecture 113 - KCL with an opamp and supply currents |
Link |
NOC:Basic Electrical Circuits |
Lecture 114 - Solutions... |
Link |
NOC:Basic Electrical Circuits |
Lecture 115 - Circuits with storage elements (capacitors and inductors) |
Link |
NOC:Basic Electrical Circuits |
Lecture 116 - First order circuit with zero input-natural response |
Link |
NOC:Basic Electrical Circuits |
Lecture 117 - First order RC circuit with zero input-Example |
Link |
NOC:Basic Electrical Circuits |
Lecture 118 - First order circuit with a constant input |
Link |
NOC:Basic Electrical Circuits |
Lecture 119 - General form of the first order circuit response |
Link |
NOC:Basic Electrical Circuits |
Lecture 120 - First order RC circuit with a constant input-Example |
Link |
NOC:Basic Electrical Circuits |
Lecture 121 - First order circuit with piecewise constant input |
Link |
NOC:Basic Electrical Circuits |
Lecture 122 - First order circuit with piecewise constant input-Example |
Link |
NOC:Basic Electrical Circuits |
Lecture 123 - First order circuit-Response of arbitrary circuit variables |
Link |
NOC:Basic Electrical Circuits |
Lecture 124 - Summary: Computing first order circuit response |
Link |
NOC:Basic Electrical Circuits |
Lecture 125 - Does a capacitor block DC? |
Link |
NOC:Basic Electrical Circuits |
Lecture 126 - Finding the order of a circuit |
Link |
NOC:Basic Electrical Circuits |
Lecture 127 - First order RC circuits with discontinuous capacitor voltages |
Link |
NOC:Basic Electrical Circuits |
Lecture 128 - Summary: Computing first order circuit response with discontinuities |
Link |
NOC:Basic Electrical Circuits |
Lecture 129 - First order RL circuits |
Link |
NOC:Basic Electrical Circuits |
Lecture 130 - First order RL circuit with discontinuous inductor current-Example |
Link |
NOC:Basic Electrical Circuits |
Lecture 131 - First order RC circuit with an exponential input |
Link |
NOC:Basic Electrical Circuits |
Lecture 132 - First order RC response to its own natural response |
Link |
NOC:Basic Electrical Circuits |
Lecture 133 - First order RC response to a sinusoidal input |
Link |
NOC:Basic Electrical Circuits |
Lecture 134 - First order RC response to a sinusoidal input-via the complex exponential |
Link |
NOC:Basic Electrical Circuits |
Lecture 135 - Summary: Linear circuit response to sinusoidal input via the complex exponential |
Link |
NOC:Basic Electrical Circuits |
Lecture 136 - Three methods of calculating the sinusoidal steady state response |
Link |
NOC:Basic Electrical Circuits |
Lecture 137 - Calculating the total response including initial conditions |
Link |
NOC:Basic Electrical Circuits |
Lecture 138 - Why are sinusoids used in measurement? |
Link |
NOC:Basic Electrical Circuits |
Lecture 139 - Second order system natural response |
Link |
NOC:Basic Electrical Circuits |
Lecture 140 - Second order system as a cascade of two first order systems |
Link |
NOC:Basic Electrical Circuits |
Lecture 141 - Second order system natural response-critically damped and underdamped |
Link |
NOC:Basic Electrical Circuits |
Lecture 142 - Generalized form of a second order system |
Link |
NOC:Basic Electrical Circuits |
Lecture 143 - Numerical example |
Link |
NOC:Basic Electrical Circuits |
Lecture 144 - Series and parallel RLC circuits |
Link |
NOC:Basic Electrical Circuits |
Lecture 145 - Forced response of a second order system |
Link |
NOC:Basic Electrical Circuits |
Lecture 146 - Steady state response calculation and Phasors |
Link |
NOC:Basic Electrical Circuits |
Lecture 147 - Phasors (Continued...) |
Link |
NOC:Basic Electrical Circuits |
Lecture 148 - Magnitude and Phase plots |
Link |
NOC:Basic Electrical Circuits |
Lecture 149 - Magnitude and phase plotes of a second order system |
Link |
NOC:Basic Electrical Circuits |
Lecture 150 - Maximum power transfer and Conjugate matching |
Link |
Advanced Logic Synthesis |
Lecture 1 - MOS Transistor |
Link |
Advanced Logic Synthesis |
Lecture 2 - MOS Transistor - Detailed Study |
Link |
Advanced Logic Synthesis |
Lecture 3 - Combinational Circuits and layout |
Link |
Advanced Logic Synthesis |
Lecture 4 - Delay |
Link |
Advanced Logic Synthesis |
Lecture 5 - Sequential Circuits |
Link |
Advanced Logic Synthesis |
Lecture 6 - Logical Effort |
Link |
Advanced Logic Synthesis |
Lecture 7 - Circuit Families |
Link |
Advanced Logic Synthesis |
Lecture 8 - Lab-01 |
Link |
Advanced Logic Synthesis |
Lecture 9 - Lab-02 |
Link |
Advanced Logic Synthesis |
Lecture 10 - Lab-03 |
Link |
Advanced Logic Synthesis |
Lecture 11 - Lab-04 |
Link |
Advanced Logic Synthesis |
Lecture 12 - Introduction to Synthesis |
Link |
Advanced Logic Synthesis |
Lecture 13 - Libraries |
Link |
Advanced Logic Synthesis |
Lecture 14 - RTL Coding for Synthesis |
Link |
Advanced Logic Synthesis |
Lecture 15 - Reading Design in DC |
Link |
Advanced Logic Synthesis |
Lecture 16 - Design Environment |
Link |
Advanced Logic Synthesis |
Lecture 17 - Design Constraints |
Link |
Advanced Logic Synthesis |
Lecture 18 - Compile Flow and stratergies |
Link |
Advanced Logic Synthesis |
Lecture 19 - Analysis and Reporting |
Link |
Advanced Logic Synthesis |
Lecture 20 - Lab-05 |
Link |
Advanced Logic Synthesis |
Lecture 21 - Advanced Synthesis Techniques |
Link |
Advanced Logic Synthesis |
Lecture 22 - Datapath Extraction Guidelines |
Link |
Advanced Logic Synthesis |
Lecture 23 - Power - Methodology and Analysis |
Link |
Advanced Logic Synthesis |
Lecture 24 - Lab-06 |
Link |
Advanced Logic Synthesis |
Lecture 25 - Lab-07 |
Link |
Advanced Logic Synthesis |
Lecture 26 - Lab-08 |
Link |
Advanced Logic Synthesis |
Lecture 27 - Lab-09 |
Link |
Advanced Logic Synthesis |
Lecture 28 - Static Timing Analysis - Concepts and Flow |
Link |
Advanced Logic Synthesis |
Lecture 29 - Interconnects and Delay calculation |
Link |
Advanced Logic Synthesis |
Lecture 30 - Clock and Exceptions |
Link |
Advanced Logic Synthesis |
Lecture 31 - On Chip Variation |
Link |
Advanced Logic Synthesis |
Lecture 32 - Introduction to Crosstalk |
Link |
Advanced Logic Synthesis |
Lecture 33 - Gaussian / Normal Distribution |
Link |
Advanced Logic Synthesis |
Lecture 34 - Equivalence Checking / Formal Verification |
Link |
ARM Based Development |
Lecture 1 - Types of computer Architectures, ISA's and ARM History |
Link |
ARM Based Development |
Lecture 2 - Embedded System Software and Hardware, stack implementation in ARM, Endianness, condition codes |
Link |
ARM Based Development |
Lecture 3 - Processor core VS CPU core, ARM7TDMI Interface signals, Memory Interface, Bus Cycle types, Register set, Operational Modes |
Link |
ARM Based Development |
Lecture 4 - Instruction Format, ARM Core Data Flow Model, ARM 3 stage Pipeline, ARM family attribute comparision |
Link |
ARM Based Development |
Lecture 5 - ARM 5 stage Pipeline, Pipeline Hazards, Data forwarding - a hardware solution |
Link |
ARM Based Development |
Lecture 6 - ARM ISA and Processor Variants, Different Types of Instructions, ARM Instruction set, data processing instructions |
Link |
ARM Based Development |
Lecture 7 - Shift Operations, shift Operations using RS lower byte, Immediate value encoding |
Link |
ARM Based Development |
Lecture 8 - Dataprocessing Instructions |
Link |
ARM Based Development |
Lecture 9 - Addressing Mode-1, Addressing Mode-2 |
Link |
ARM Based Development |
Lecture 10 - Addressing Mode-2, LDR/STR, Addressing mode-3 with examples |
Link |
ARM Based Development |
Lecture 11 - Instruction Timing, Addressing Mode-4 with Examples |
Link |
ARM Based Development |
Lecture 12 - Swap Instructions, Swap Register related Instructions, Loading Constants |
Link |
ARM Based Development |
Lecture 13 - Program Control Flow, Control Flow Instructions, B & BL instructions, BX instruction |
Link |
ARM Based Development |
Lecture 14 - Interrupts and Exceptions, Exception Handlers, Reset Handling |
Link |
ARM Based Development |
Lecture 15 - Aborts, software Interrupt Instruction, undefined instruction exception |
Link |
ARM Based Development |
Lecture 16 - Interrupt Latency, Multiply Instructions, Instruction set examples |
Link |
ARM Based Development |
Lecture 17 - Thumb state, Thumb Programmers model, Thumb Implementation, Thumb Applications |
Link |
ARM Based Development |
Lecture 18 - Thumb Instructions, Interrupt processing |
Link |
ARM Based Development |
Lecture 19 - Interrupt Handelling schemes, Examples of Interrupt Handlers |
Link |
ARM Based Development |
Lecture 20 - Coprocessors |
Link |
ARM Based Development |
Lecture 21 - Coprocessor Instructions, data Processing Instruction, data transfers, register transfers |
Link |
ARM Based Development |
Lecture 22 - Number representations, floating point representation |
Link |
ARM Based Development |
Lecture 23 - Flynn's Taxonomy, SIMD and Vector Processors, Vector Floating Point Processor (VFP), VFP and ARM interactions, An example vector operation |
Link |
ARM Based Development |
Lecture 24 - Memory Technologies, Need for memory Hierarchy, Hierarchical Memory Organization, Virtual Memory |
Link |
ARM Based Development |
Lecture 25 - Cache Memory, Mapping Functions |
Link |
ARM Based Development |
Lecture 26 - Cache Design, Unified or split cache, multiple level of caches, ARM cache features, coprocessor 15 for system control |
Link |
ARM Based Development |
Lecture 27 - Processes, Memory Map, Protected Systems, ARM systems with MPU, memory Protection Unit (MPU) |
Link |
ARM Based Development |
Lecture 28 - Physical Vs Virtual Memory, Paging, Segmentation |
Link |
ARM Based Development |
Lecture 29 - MMU Advantage, virtual memory translation, Multitasking with MMU, MMU organization, Tightly coupled Memory (TCM) |
Link |
ARM Based Development |
Lecture 30 - ARM Development Environment, Arm Procedure Call Standard (APCS), |
Link |
ARM Based Development |
Lecture 31 - Example C program |
Link |
ARM Based Development |
Lecture 32 - Embedded software Development, Image structure, linker inputs and outputs, memory map, application startup |
Link |
ARM Based Development |
Lecture 33 - AMBA Overview, Typical AMAB Based Microcontroller, AHB bus features, AHB Bus transfers, APB bus transfers, APB bridge |
Link |
ARM Based Development |
Lecture 34 - DMA, Peripherals, Programming Peripherals in ARM |
Link |
ARM Based Development |
Lecture 35 - DMA:Direct Memory Access |
Link |
ARM Based Development |
Lecture 36 - Protocols (I2c, SPI), UART, GPIO |
Link |
ARM Based Development |
Lecture 37 - ARM ISAs, ARMv5, ARMv6, ARM v7, big.little technology, ARMv8 |
Link |
Embedded Software Testing |
Lecture 1 - Embedded Systems Basics Session 1 |
Link |
Embedded Software Testing |
Lecture 2 - Embedded Systems Basics Session 1 (Continued...) |
Link |
Embedded Software Testing |
Lecture 3 - Prerequistics for Embedded Systems Testing |
Link |
Embedded Software Testing |
Lecture 4 - Test Case Designa and procedures |
Link |
Embedded Software Testing |
Lecture 5 - Test Standards |
Link |
Embedded Software Testing |
Lecture 6 - Depicting Levels of Testing |
Link |
Embedded Software Testing |
Lecture 7 - Depicting Levels of Testing (Continued...) |
Link |
Embedded Software Testing |
Lecture 8 - Software Life Cycle |
Link |
Embedded Software Testing |
Lecture 9 - Embedded V-Model Life Cycle |
Link |
Embedded Software Testing |
Lecture 10 - Embedded V-Model Life Cycle (Continued...) |
Link |
Embedded Software Testing |
Lecture 11 - Master Test Planning |
Link |
Embedded Software Testing |
Lecture 12 - Dynamic Testing |
Link |
Embedded Software Testing |
Lecture 13 - Black Box Testing |
Link |
Embedded Software Testing |
Lecture 14 - Black Box Testing (Continued...) |
Link |
Embedded Software Testing |
Lecture 15 - Black Box Testing (Continued...) |
Link |
Embedded Software Testing |
Lecture 16 - Black Box Testing (Continued...) |
Link |
Embedded Software Testing |
Lecture 17 - Model based Design Introduction |
Link |
Embedded Software Testing |
Lecture 18 - Dynamic Testing |
Link |
Embedded Software Testing |
Lecture 19 - Dynamic Testing (Continued...) |
Link |
Embedded Software Testing |
Lecture 20 - White Box Testing |
Link |
Embedded Software Testing |
Lecture 21 - White Box Testing (Continued...) |
Link |
Embedded Software Testing |
Lecture 22 - Grey-box testing |
Link |
Embedded Software Testing |
Lecture 23 - Static Testing |
Link |
Embedded Software Testing |
Lecture 24 - Static Analysis |
Link |
Embedded Software Testing |
Lecture 25 - Static Analysis (Continued...) |
Link |
Embedded Software Testing |
Lecture 26 - Static Analysis (Continued...) |
Link |
Embedded Software Testing |
Lecture 27 - Test Metrics |
Link |
Embedded Software Testing |
Lecture 28 - Software Testing Metrics |
Link |
Embedded Software Testing |
Lecture 29 - Integration Test Strategy |
Link |
Embedded Software Testing |
Lecture 30 - Integration Tests Environment |
Link |
Embedded Software Testing |
Lecture 31 - Use Case Diagram |
Link |
Embedded Software Testing |
Lecture 32 - Depicting Levels of Testing (Continued...) |
Link |
Embedded Software Testing |
Lecture 33 - Configure Management Elements |
Link |
Embedded Software Testing |
Lecture 34 - SCM Activities |
Link |
Embedded Software Testing |
Lecture 35 - Test Management Tool |
Link |
Embedded Software Testing |
Lecture 36 - SCM Activities (Continued...) |
Link |
Embedded Software Testing |
Lecture 37 - Overview Lecture 1 |
Link |
Embedded Software Testing |
Lecture 38 - Unit Testing |
Link |
Embedded Software Testing |
Lecture 39 - Unit Testing (Continued...) |
Link |
Embedded Software Testing |
Lecture 40 - Understading C++ |
Link |
Embedded Software Testing |
Lecture 41 - Unit Testing (Continued...) |
Link |
Embedded Software Testing |
Lecture 42 - Level Testing |
Link |
Embedded Software Testing |
Lecture 43 - Identify Test Cases |
Link |
Embedded Software Testing |
Lecture 44 - Test Link Work Flow |
Link |
Linux Programming and Scripting |
Lecture 1 - Linux Basics - I |
Link |
Linux Programming and Scripting |
Lecture 2 - Linux Basics - II |
Link |
Linux Programming and Scripting |
Lecture 3 - Linux Basics - III |
Link |
Linux Programming and Scripting |
Lecture 4 - Linux Basics - IV |
Link |
Linux Programming and Scripting |
Lecture 5 - Linux Networking - I |
Link |
Linux Programming and Scripting |
Lecture 6 - Linux Networking - II |
Link |
Linux Programming and Scripting |
Lecture 7 - File Transfer Protocol |
Link |
Linux Programming and Scripting |
Lecture 8 - Domain Name System |
Link |
Linux Programming and Scripting |
Lecture 9 - DNS (Continued...) |
Link |
Linux Programming and Scripting |
Lecture 10 - DFS |
Link |
Linux Programming and Scripting |
Lecture 11 - AFS and NIS |
Link |
Linux Programming and Scripting |
Lecture 12 - PERL 1 |
Link |
Linux Programming and Scripting |
Lecture 13 - PERL 2 |
Link |
Linux Programming and Scripting |
Lecture 14 - PERL 3 |
Link |
Linux Programming and Scripting |
Lecture 15 - PERL 4 |
Link |
Linux Programming and Scripting |
Lecture 16 - PERL 5 |
Link |
Linux Programming and Scripting |
Lecture 17 - PERL 6 |
Link |
Linux Programming and Scripting |
Lecture 18 - PERL 7 |
Link |
Linux Programming and Scripting |
Lecture 19 - PERL 8 |
Link |
Linux Programming and Scripting |
Lecture 20 - PERL 9 |
Link |
Linux Programming and Scripting |
Lecture 21 - Using sort |
Link |
Linux Programming and Scripting |
Lecture 22 - PERL 10 |
Link |
Linux Programming and Scripting |
Lecture 23 - Programming Using Tcl/Tk - I |
Link |
Linux Programming and Scripting |
Lecture 24 - Programming Using Tcl/Tk - II |
Link |
Linux Programming and Scripting |
Lecture 25 - Programming Using Tcl/Tk - III |
Link |
Linux Programming and Scripting |
Lecture 26 - More about Procedures |
Link |
Linux Programming and Scripting |
Lecture 27 - TCP, Ports and Sockets |
Link |
Linux Programming and Scripting |
Lecture 28 - I/O and Processes |
Link |
Linux Programming and Scripting |
Lecture 29 - Bindings |
Link |
Linux Programming and Scripting |
Lecture 30 - Programming Using Tcl/Tk - IV |
Link |
Linux Programming and Scripting |
Lecture 31 - Furniture Arranger |
Link |
Linux Programming and Scripting |
Lecture 32 - Bindtags |
Link |
Linux Programming and Scripting |
Lecture 33 - Tcl in Synopsys Tools |
Link |
Linux Programming and Scripting |
Lecture 34 - Python Programming |
Link |
Linux Programming and Scripting |
Lecture 35 - Scope |
Link |
Linux Programming and Scripting |
Lecture 36 - Iteration |
Link |
Linux Programming and Scripting |
Lecture 37 - More about Regexps |
Link |
Linux Programming and Scripting |
Lecture 38 - Advanced Functions |
Link |
Linux Programming and Scripting |
Lecture 39 - Exception Handling |
Link |
Linux Programming and Scripting |
Lecture 40 - Examples of file Parsing |
Link |
Linux Programming and Scripting |
Lecture 41 - Program on If Statement |
Link |
Linux Programming and Scripting |
Lecture 42 - Program on Lists |
Link |
Linux Programming and Scripting |
Lecture 43 - Makefiles |
Link |
NOC:Digital Circuits and Systems |
Lecture 1 - Introduction |
Link |
NOC:Digital Circuits and Systems |
Lecture 2 - Basic Boolean Logic |
Link |
NOC:Digital Circuits and Systems |
Lecture 3 - Boolean Theorems |
Link |
NOC:Digital Circuits and Systems |
Lecture 4 - Definitions, SoP and Pos |
Link |
NOC:Digital Circuits and Systems |
Lecture 5 - Algebraic Minimization Examples |
Link |
NOC:Digital Circuits and Systems |
Lecture 6 - Introduction to Verilog |
Link |
NOC:Digital Circuits and Systems |
Lecture 7 - Universality, Rearranging Truth Tables |
Link |
NOC:Digital Circuits and Systems |
Lecture 8 - Karnaugh Maps |
Link |
NOC:Digital Circuits and Systems |
Lecture 9 - K-Map Minimization |
Link |
NOC:Digital Circuits and Systems |
Lecture 10 - K-Map with Don't cares |
Link |
NOC:Digital Circuits and Systems |
Lecture 11 - Multiple Output Functions |
Link |
NOC:Digital Circuits and Systems |
Lecture 12 - Number Systems |
Link |
NOC:Digital Circuits and Systems |
Lecture 13 - Encoders and Decoders |
Link |
NOC:Digital Circuits and Systems |
Lecture 14 - Multiplexers |
Link |
NOC:Digital Circuits and Systems |
Lecture 15 - Multiplexer based Circuit Design |
Link |
NOC:Digital Circuits and Systems |
Lecture 16 - Verilog |
Link |
NOC:Digital Circuits and Systems |
Lecture 17 - Compiling and Running Verilog - A Demonstration |
Link |
NOC:Digital Circuits and Systems |
Lecture 18 - Sequential Elements |
Link |
NOC:Digital Circuits and Systems |
Lecture 19 - Gated Latches |
Link |
NOC:Digital Circuits and Systems |
Lecture 20 - Flipflops |
Link |
NOC:Digital Circuits and Systems |
Lecture 21 - Verilog - Assign Statement and Instantiation |
Link |
NOC:Digital Circuits and Systems |
Lecture 22 - Sequential Circuits |
Link |
NOC:Digital Circuits and Systems |
Lecture 23 - CMOS+Electrical Properties |
Link |
NOC:Digital Circuits and Systems |
Lecture 24 - Delays |
Link |
NOC:Digital Circuits and Systems |
Lecture 25 - Sequential Element Delays |
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NOC:Digital Circuits and Systems |
Lecture 26 - More Sequential Circuits |
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NOC:Digital Circuits and Systems |
Lecture 27 - Introduction to State Machines |
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NOC:Digital Circuits and Systems |
Lecture 28 - Always Statement in Verilog |
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NOC:Digital Circuits and Systems |
Lecture 29 - Sequential Logic Synthesis |
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NOC:Digital Circuits and Systems |
Lecture 30 - FSM Design Problems |
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NOC:Digital Circuits and Systems |
Lecture 31 - State Minimization |
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NOC:Digital Circuits and Systems |
Lecture 32 - State Assignment |
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NOC:Digital Circuits and Systems |
Lecture 33 - Timing Sequential Circuits |
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NOC:Digital Circuits and Systems |
Lecture 34 - Verilog Styles + Sequential Elements |
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NOC:Digital Circuits and Systems |
Lecture 35 - GCD Algorithm |
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NOC:Digital Circuits and Systems |
Lecture 36 - GCD Machines Datapath |
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NOC:Digital Circuits and Systems |
Lecture 37 - GCD State Machine |
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NOC:Digital Circuits and Systems |
Lecture 38 - GCD Top Level Module |
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NOC:Digital Circuits and Systems |
Lecture 39 - Datapath in Verilog |
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NOC:Digital Circuits and Systems |
Lecture 40 - Datapath Elements in Verilog |
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NOC:Digital Circuits and Systems |
Lecture 41 - FSM in Verilog |
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NOC:Digital Circuits and Systems |
Lecture 42 - Putting it all together |
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NOC:Digital Circuits and Systems |
Lecture 43 - Pipelining |
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NOC:Digital Circuits and Systems |
Lecture 44 - K-stage Pipeline |
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NOC:Digital Circuits and Systems |
Lecture 45 - Interleaving and Parallelism |
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NOC:Digital Circuits and Systems |
Lecture 46 - Blocking and Non-blocking Statements |
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NOC:Digital Circuits and Systems |
Lecture 47 - Modeling Circuits with Pipelining |
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NOC:Digital Circuits and Systems |
Lecture 48 - Signed Number Representation |
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NOC:Digital Circuits and Systems |
Lecture 49 - Signed Number Addition |
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NOC:Digital Circuits and Systems |
Lecture 50 - Adder/Subtracter |
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NOC:Digital Circuits and Systems |
Lecture 51 - Fast Adders |
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NOC:Digital Circuits and Systems |
Lecture 52 - Multiplication |
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NOC:Digital Circuits and Systems |
Lecture 53 - Closing |
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NOC:Networks and Systems |
Lecture 1 - Functions in circuits - constant and sinusoidal functions |
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NOC:Networks and Systems |
Lecture 2 - Functions in circuits - Exponential function |
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NOC:Networks and Systems |
Lecture 3 - Complex numbers and other topics |
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NOC:Networks and Systems |
Lecture 4 - Systems, Signals, Networks |
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NOC:Networks and Systems |
Lecture 5 - Representation and Classification of Systems |
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NOC:Networks and Systems |
Lecture 6 - Linear systems |
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NOC:Networks and Systems |
Lecture 7 - Time-invariance and causality |
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NOC:Networks and Systems |
Lecture 8 - Signals, Elementary continuous signals |
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NOC:Networks and Systems |
Lecture 9 - Complex frequencies of signals |
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NOC:Networks and Systems |
Lecture 10 - Discontinuous signals - step, ramp |
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NOC:Networks and Systems |
Lecture 11 - Unit impulse or delta function |
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NOC:Networks and Systems |
Lecture 12 - Basic discrete-time signals |
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NOC:Networks and Systems |
Lecture 13 - Examples of Signals |
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NOC:Networks and Systems |
Lecture 14 - Introduction to Systems, Complementary Functions, Initial Conditions |
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NOC:Networks and Systems |
Lecture 15 - Special initial conditions |
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NOC:Networks and Systems |
Lecture 16 - Characterization of a linear system |
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NOC:Networks and Systems |
Lecture 17 - Impulse Response |
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NOC:Networks and Systems |
Lecture 18 - Evaluating the Convolution Integral |
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NOC:Networks and Systems |
Lecture 19 - Worked-out Problems |
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NOC:Networks and Systems |
Lecture 20 - Introduction and Motivation |
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NOC:Networks and Systems |
Lecture 21 - Evaluating Fourier series coefficients |
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NOC:Networks and Systems |
Lecture 22 - Symmetry conditions |
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NOC:Networks and Systems |
Lecture 23 - Symmetry Condition Examples |
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NOC:Networks and Systems |
Lecture 24 - Application to Network Analysis |
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NOC:Networks and Systems |
Lecture 25 - Exponential Fourier Series |
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NOC:Networks and Systems |
Lecture 26 - Frequency Spectrum |
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NOC:Networks and Systems |
Lecture 27 - Examples |
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NOC:Networks and Systems |
Lecture 28 - Signal Power and Related Ideas |
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NOC:Networks and Systems |
Lecture 29 - Convergence of Fourier Series |
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NOC:Networks and Systems |
Lecture 30 - Week 1 Solutions |
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NOC:Networks and Systems |
Lecture 31 - Hints for Assignment 2 |
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NOC:Networks and Systems |
Lecture 32 - Hints for Assignment 3 |
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NOC:Networks and Systems |
Lecture 33 - Additional Properties of Fourier Series |
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NOC:Networks and Systems |
Lecture 34 - Exercises on Fourier Series |
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NOC:Networks and Systems |
Lecture 35 - Lab Demo |
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NOC:Networks and Systems |
Lecture 36 - From Fourier Series to Fourier Transform |
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NOC:Networks and Systems |
Lecture 37 - Continuous Time Fourier Transform |
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NOC:Networks and Systems |
Lecture 38 - Fourier Transform Examples |
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NOC:Networks and Systems |
Lecture 39 - Examples and Some Properties of Fourier Transform |
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NOC:Networks and Systems |
Lecture 40 - Properties of Fourier Transform (contd.) |
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NOC:Networks and Systems |
Lecture 41 - More Fourier Transform Properties |
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NOC:Networks and Systems |
Lecture 42 - Energy Considerations |
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NOC:Networks and Systems |
Lecture 43 - Energy Considerations II |
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NOC:Networks and Systems |
Lecture 44 - Helpful Relationships for Inverse Fourier Transform |
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NOC:Networks and Systems |
Lecture 45 - Fourier transform of signals that are not absolutely integrable |
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NOC:Networks and Systems |
Lecture 46 - Fourier Transform of Periodic Signals, Unit Step and Signum Function |
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NOC:Networks and Systems |
Lecture 47 - Truncated Sine wave and Convolution properties |
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NOC:Networks and Systems |
Lecture 48 - Integration in Time domain |
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NOC:Networks and Systems |
Lecture 49 - Application of continuous-time Fourier transform to system analysis |
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NOC:Networks and Systems |
Lecture 50 - Comments about transient analysis |
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NOC:Networks and Systems |
Lecture 51 - Sampling Theorem and Exercises on Fourier Transforms |
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NOC:Networks and Systems |
Lecture 52 - Introduction to Laplace Transform |
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NOC:Networks and Systems |
Lecture 53 - Laplace transforms of important functions |
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NOC:Networks and Systems |
Lecture 54 - Recap, Poles / Zeros and Laplace Transform Notation |
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NOC:Networks and Systems |
Lecture 55 - Properties: Linearity, differentiation in the time domain |
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NOC:Networks and Systems |
Lecture 56 - Application and properties of Laplace transform |
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NOC:Networks and Systems |
Lecture 57 - More properties of Laplace transform: Shift in frequency domain |
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NOC:Networks and Systems |
Lecture 58 - More properties of Laplace transform |
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NOC:Networks and Systems |
Lecture 59 - Properties: Division by `t, Initial value theorem, Final value theorem |
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NOC:Networks and Systems |
Lecture 60 - Properties: Convolution in time domain |
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NOC:Networks and Systems |
Lecture 61 - Complex convolution and periodic functions |
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NOC:Networks and Systems |
Lecture 62 - Examples of Laplace transform |
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NOC:Networks and Systems |
Lecture 63 - Laplace transform examples |
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NOC:Networks and Systems |
Lecture 64 - Inverse Laplace transform |
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NOC:Networks and Systems |
Lecture 65 - Partial fractions: general case |
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NOC:Networks and Systems |
Lecture 66 - Inverse Laplace Transform and Contour Integration |
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NOC:Networks and Systems |
Lecture 67 - Relating Fourier and Laplace Transform |
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NOC:Networks and Systems |
Lecture 68 - Exercises |
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NOC:Networks and Systems |
Lecture 69 - Applications of Laplace transform to network transients |
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NOC:Networks and Systems |
Lecture 70 - Laplace transform for resistor and system analysis |
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NOC:Networks and Systems |
Lecture 71 - Laplace transform method for mutual inductance |
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NOC:Networks and Systems |
Lecture 72 - Mutual Inductance Continued |
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NOC:Networks and Systems |
Lecture 73 - Examples and Advantages of L-transform |
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NOC:Networks and Systems |
Lecture 74 - General LTI systems and more about H(s) |
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NOC:Networks and Systems |
Lecture 75 - Many facets of the system function (contd) |
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NOC:Networks and Systems |
Lecture 76 - Frequency response and stability |
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NOC:Networks and Systems |
Lecture 77 - Full circuit example |
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NOC:Networks and Systems |
Lecture 78 - Exercises |
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NOC:Circuit Analysis for Analog Designers |
Lecture 1 - Course Introduction and Motivation |
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NOC:Circuit Analysis for Analog Designers |
Lecture 2 - Kirchoff's Current and Voltage Laws, and the Incidence Matrix |
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NOC:Circuit Analysis for Analog Designers |
Lecture 3 - Power Conservation and Tellegen's Theorem |
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NOC:Circuit Analysis for Analog Designers |
Lecture 4 - Intuition behind Tellegen's Theorem |
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NOC:Circuit Analysis for Analog Designers |
Lecture 5 - Tellegen's Theorem and reciprocity in linear resistive networks |
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NOC:Circuit Analysis for Analog Designers |
Lecture 6 - Why is reciprocity useful in practice? |
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NOC:Circuit Analysis for Analog Designers |
Lecture 7 - Inter-reciprocity in linear time-invariant networks |
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NOC:Circuit Analysis for Analog Designers |
Lecture 8 - Inter-reciprocity in linear time-invariant networks (Continued...) |
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NOC:Circuit Analysis for Analog Designers |
Lecture 9 - Inter-reciprocity in networks with ideal operational amplifiers |
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NOC:Circuit Analysis for Analog Designers |
Lecture 10 - Review of Modified Nodal Analysis (MNA) of linear networks |
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NOC:Circuit Analysis for Analog Designers |
Lecture 11 - MNA stamps of controlled sources - the VCCS and VCVS |
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NOC:Circuit Analysis for Analog Designers |
Lecture 12 - MNA stamps of controlled sources - the CCCS and CCVS |
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NOC:Circuit Analysis for Analog Designers |
Lecture 13 - Inter-reciprocity in linear networks - using the MNA stamp approach |
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NOC:Circuit Analysis for Analog Designers |
Lecture 14 - The Adjoint Network |
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NOC:Circuit Analysis for Analog Designers |
Lecture 15 - MNA stamp of an ideal opamp |
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NOC:Circuit Analysis for Analog Designers |
Lecture 16 - Properties of circuits with multiple ideal opamps |
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NOC:Circuit Analysis for Analog Designers |
Lecture 17 - Introduction to Analog Active Filters |
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NOC:Circuit Analysis for Analog Designers |
Lecture 18 - Magnitude approximation principles |
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NOC:Circuit Analysis for Analog Designers |
Lecture 19 - The maximally flat (Butterworth) approximation |
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NOC:Circuit Analysis for Analog Designers |
Lecture 20 - The Butterworth Approximation (Continued...) |
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NOC:Circuit Analysis for Analog Designers |
Lecture 21 - Connection between magnitude response and pole locations in an all-pole filter |
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NOC:Circuit Analysis for Analog Designers |
Lecture 22 - Cascade-of-biquads, realization of stray-insensitive first-order section |
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NOC:Circuit Analysis for Analog Designers |
Lecture 23 - Opamp-RC biquadratic sections |
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NOC:Circuit Analysis for Analog Designers |
Lecture 24 - Active-RC biquads and Impedance scaling |
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NOC:Circuit Analysis for Analog Designers |
Lecture 25 - Opamp-RC biquadratic sections (Continued...) |
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NOC:Circuit Analysis for Analog Designers |
Lecture 26 - High-order filters using cascade of biquads, Dynamic range scaling in opamp-RC filters |
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NOC:Circuit Analysis for Analog Designers |
Lecture 27 - The finite gain-bandwidth model of nonideal opamps |
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NOC:Circuit Analysis for Analog Designers |
Lecture 28 - Effect of finite opamp bandwidth on an active-RC integrator |
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NOC:Circuit Analysis for Analog Designers |
Lecture 29 - Effect of finite opamp bandwidth on an active-RC biquad |
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NOC:Circuit Analysis for Analog Designers |
Lecture 30 - Visualization and mitigation of the effect of Q-enhancement |
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NOC:Circuit Analysis for Analog Designers |
Lecture 31 - Transconductance-Capacitance integrators |
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NOC:Circuit Analysis for Analog Designers |
Lecture 32 - Introduction to noise in electrical networks |
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NOC:Circuit Analysis for Analog Designers |
Lecture 33 - Noise processed by a linear time-invariant system |
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NOC:Circuit Analysis for Analog Designers |
Lecture 34 - kT/C noise in a sample-and-hold circuit |
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NOC:Circuit Analysis for Analog Designers |
Lecture 35 - Noise in RLC networks |
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NOC:Circuit Analysis for Analog Designers |
Lecture 36 - Total integrated noise in RLC Networks |
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NOC:Circuit Analysis for Analog Designers |
Lecture 37 - Bode's Noise Theorem - Frequency domain |
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NOC:Circuit Analysis for Analog Designers |
Lecture 38 - Input referred noise in electrical networks - Part 1 |
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NOC:Circuit Analysis for Analog Designers |
Lecture 39 - Input referred noise in electrical networks - Part 2 |
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NOC:Circuit Analysis for Analog Designers |
Lecture 40 - Input referred noise and the noise factor |
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NOC:Circuit Analysis for Analog Designers |
Lecture 41 - Noise Factor Examples |
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NOC:Circuit Analysis for Analog Designers |
Lecture 42 - Introduction to distributed networks, the ideal transmission line |
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NOC:Circuit Analysis for Analog Designers |
Lecture 43 - Solving the wave equation in an ideal transmission line |
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NOC:Circuit Analysis for Analog Designers |
Lecture 44 - Transmisson line circuit analysis : The short circuited and open circuited line |
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NOC:Circuit Analysis for Analog Designers |
Lecture 45 - Transmission line circuit analysis, the reflection coefficient, open and short-circuited lines |
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NOC:Circuit Analysis for Analog Designers |
Lecture 46 - Transmission line driven by a source, power in a transmission line |
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NOC:Circuit Analysis for Analog Designers |
Lecture 47 - The Smith chart |
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NOC:Circuit Analysis for Analog Designers |
Lecture 48 - The need for scattering parameters |
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NOC:Circuit Analysis for Analog Designers |
Lecture 49 - Scattering Parameters: Introduction |
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NOC:Circuit Analysis for Analog Designers |
Lecture 50 - Example scattering matrix calculations |
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NOC:Circuit Analysis for Analog Designers |
Lecture 51 - Scattering matrices properties |
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NOC:Circuit Analysis for Analog Designers |
Lecture 52 - Measuring the S-parameters of a one-port |
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NOC:Circuit Analysis for Analog Designers |
Lecture 53 - The one-port vector network analyzer |
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NOC:Circuit Analysis for Analog Designers |
Lecture 54 - The two-port vector network analyzer |
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NOC:Circuit Analysis for Analog Designers |
Lecture 55 - Weak nonlinearity in electronic circuits, second-order harmonic distortion, HD2 and IM2 |
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NOC:Circuit Analysis for Analog Designers |
Lecture 56 - Weak nonlinearity in electronic circuits, second-order intermodulation distortion |
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NOC:Circuit Analysis for Analog Designers |
Lecture 57 - Gain compression and third-order harmonic distortion |
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NOC:Circuit Analysis for Analog Designers |
Lecture 58 - Third-order intermodulation distortion |
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NOC:Circuit Analysis for Analog Designers |
Lecture 59 - Weak nonlinearities in circuits: Intuition behind the method of current injection |
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NOC:Circuit Analysis for Analog Designers |
Lecture 60 - Weak nonlinearities in circuits: Calculating nonlinear components |
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NOC:Circuit Analysis for Analog Designers |
Lecture 61 - Current-injection analysis of distortion in a negative feedback system |
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NOC:Circuit Analysis for Analog Designers |
Lecture 62 - Current-injection analysis of distortion in a negative feedback system (Continued...) |
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NOC:Circuit Analysis for Analog Designers |
Lecture 63 - Course summary and recap |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 1 - Understanding Silicon |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 2 - Introduction to NMOS |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 3 - NMOS Transistor Working |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 4 - PMOS Transistor |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 5 - MOS Capacitances |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 6 - Non Ideal MOS model |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 7 - Short channel current model |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 8 - Short channel current model analysis |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 9 - Channel Length modulation index |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 10 - DC characteristics of Inverter |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 11 - Transfer characteristics of Inverter |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 12 - Skewed Inverter |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 13 - Skewed Inverter and threshold voltage |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 14 - Equivalent of transistors in series |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 15 - Transmission Gate |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 16 - Bad CMOS Buffer - Part 1 |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 17 - Bad CMOS Buffer - Part 2 |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 18 - Noise margin characteristics of inverter |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 19 - Noise margin parameters |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 20 - Introduction to Delay in CMOS |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 21 - Transient analysis of CMOS Inverter |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 22 - RC approximated delay |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 23 - Switching Resistance |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 24 - CMOS Inverter approximated to RC Circuit |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 25 - Elmore delay |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 26 - Delay of FO4 inverter |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 27 - Extracting capacitances of 3-Nand gate for delay estimation |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 28 - Characterizing Delay of NOR gate |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 29 - Linear Delay model |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 30 - Logical effort and Parasitic delay |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 31 - Logical effort and Parasitic delay for different gates |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 32 - Logical effort for short-channel current model |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 33 - Ring Oscillator design |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 34 - Optimizing Gate Size |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 35 - Optimizing Gate Sizes Example |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 36 - Optimizing the Stages for an inverter path |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 37 - Optimizing the Stages for a General Circuit |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 38 - Decoder Design |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 39 - Introduction to Combinational Circuit and assymetric gates |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 40 - Assymetric Gates analysis |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 41 - Assymetric Gates analysis using short-channel current model |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 42 - Introduction to Skewed gates |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 43 - Skewed gates and best P/N ratio |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 44 - vIntroduction to Pseudo NMOS |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 45 - Psudeo NMOS gates |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 46 - Other Logic Family |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 47 - Dynamic Logic and Domino logic |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 48 - Domino gates |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 49 - Introduction to Stick Diagram |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 50 - Stick Diagram for different gates |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 51 - Applying Eulers path for stick diagram representations |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 52 - Multiplexer design and layout |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 53 - Introduction to Interconnects |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 54 - Interconnects - RC delay, and Energy |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 55 - Introduction to crosstalks in interconnects |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 56 - Transient analysis in Crosstalk |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 57 - Introduction to Repeaters in Interconnect Engineering |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 58 - Repeater Design |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 59 - Energy and delay analysis for interconnectwith repeaters |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 60 |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 61 - Introduction to Power |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 62 - Switching Power and Energy Estimation |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 63 - Activity factor and estimating dynamic power for a combinational circuit design |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 64 - Analyzing Dynamic Power |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 65 - Energy estimation through driving factor |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 66 - Energy expression in terms of delay |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 67 - Voltage Scaling |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 68 - DVFS |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 69 - Introduction to subthreshold leakage current model |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 70 - Subthreshold leakage current and Gate leakage current |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 71 - Estimating Static Power |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 72 - Introduction to CMOS Latch design |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 73 - CMOS Latch Design |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 74 - CMOS Latch and flipflop design |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 75 - Static Timing Analysis |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 76 - Static Timing Analysis (Continued...) |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 77 - Static Timing Analysis - Part 2 |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 78 - Static Timing Analysis - Part 2.1 |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 79 - Static Timing Analysis - Part 3 |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 80 - TPDQ and TPCQ |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 81 - Static Timing Analysis - Part 4 |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 82 - Static Timing Analysis - Part 5 |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 83 - Static Timing Analysis - Part 6 |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 84 - SET and CLEAR enabled Latch and Flipflop Design |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 85 - 1-bit Adder design |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 86 - Adder-Part2 |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 87 - PG architecture - Part 1 |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 88 - PG architecture - Part 2 |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 89 - Carry Skip Adder |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 90 - Carry Look Ahead and Carry Increment Adder |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 91 - Other Adder Subsystems |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 92 - Approximate Multipliers - Part 1 |
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NOC:Design and Analysis of VLSI Subsystems |
Lecture 93 - Approximate Multipliers - Part 2 |
Link |
NOC:Design and Analysis of VLSI Subsystems |
Lecture 94 - Approximate Adder |
Link |
NOC:Nonlinear Dynamical Systems and Control |
Lecture 1 - Introduction - Part 1 |
Link |
NOC:Nonlinear Dynamical Systems and Control |
Lecture 2 - Introduction - Part 2 |
Link |
NOC:Nonlinear Dynamical Systems and Control |
Lecture 3 - Ordinary Differential Equations - Part 1 |
Link |
NOC:Nonlinear Dynamical Systems and Control |
Lecture 4 - Ordinary Differential Equations - Part 2 |
Link |
NOC:Nonlinear Dynamical Systems and Control |
Lecture 5 - ODE Solutions via Examples |
Link |
NOC:Nonlinear Dynamical Systems and Control |
Lecture 6 - Solutions to ODEs |
Link |
NOC:Nonlinear Dynamical Systems and Control |
Lecture 7 - Existence and Uniqueness Theorems |
Link |
NOC:Nonlinear Dynamical Systems and Control |
Lecture 8 - Asymptotic Behaviour of Dynamical Systems - Part 1 |
Link |
NOC:Nonlinear Dynamical Systems and Control |
Lecture 9 - Asymptotic Behaviour of Dynamical Systems - Part 2 |
Link |
NOC:Nonlinear Dynamical Systems and Control |
Lecture 10 - Asymptotic Behaviour of Dynamical Systems - Part 3 |
Link |
NOC:Nonlinear Dynamical Systems and Control |
Lecture 11 - Stability Theory: Definitions - Part 1 |
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