subjectId	Discipline Name	Subject Name	Coordinators	Type	Institute	Content
117101001	Electronics & Communication Engineering	Adv. Digital Signal Processing - Multirate and wavelets	Prof. V.M. Gadre	Video	IIT Bombay	Select L1- Introduction L2-The Haar Wavelet L3-The Haar Multiresolution Analysis L4-Wavelets And Multirate Digital Signal Processing L5-Equivalence - Functions And Sequences L6-The Haar Filter Bank L7-Haar Filter Bank Analysis And Synthesis L8-Relating psi, phi and the Filters L9-Iterating the filter bank from Psi, Phi L10-Z-Domain Analysis Of Multirate Filter Bank L11-Two Channel Filter Bank L12-Perfect Reconstruction - Conjugate Quadrature L13-Conjugate Quadrature Filters - Daubechies Family of MRA L14-Daubechies' Filter Banks - Conjugate Quadrature Filters L15-Time And Frequency Joint Perspective L16- Ideal Time Frequency Behaviour L17- The Uncertainty Principle L18- Time Bandwidth Product Uncertainty L19- Evaluating and Bounding squareroot t.squareroot omega L20- The Time Frequency Plane & its Tilings L21- Short time Fourier Transform & Wavelet Transform in General L22- Reconstruction & Admissibility L23- Admissibility in Detail Discretization of Scale L24- Logarithmic Scale Discretization, Dyadic Discretization L25- The Theorem of (DYADIC) Multiresolution Analysis L26- Proof of the Theorem of (DYADIC) Multiresolution Analysis L27- Introducing Variants of The Multiresolution Analysis Concept L28- JPEG 2000 5/3 FilterBank & Spline MRA L29- Orthogonal Multiresolution Analysis with Splines L30- Building Piecewise Linear Scaling Function, Wavelet L31- The Wave Packet Transform L32- Nobel Identities & The Haar Wave Packet Transform L33- The Lattice Structure for Orthogonal Filter Banks L34- Constructing the Lattice & its Variants L35- The Lifting Structure & Polyphase Matrices L36-The Polyphase Approach - The Modulation Approach L-37 Modulation Analysis and The 3-Band Filter Bank, Applications L38-The Applications *Data Mining, *Face Recognition L39-Proof that a non-zero function can not be both time and band-limited L40- M-Band Filter Banks and Looking Ahead L41-Tutorial -Session 1 L42-Student's Presentation L43-Tutorial on Uncertainty Product L44-Tutorial on Two band Filter Bank L45-Tutorial -Frequency Domain Analysis of Two band Filter Bank L46-Zoom in and Zoom out using Wavelet Transform L47-More Thoughts on Wavelets : Zooming In L48-Towards selecting Wavelets through vanishing moments L49-In Search of Scaling Coefficients L50-Wavelet Applications
117101002	Electronics & Communication Engineering	Advanced Optical Communication	Prof. R.K. Shevgaonkar	Video	IIT Bombay	Select L1-Introduction L2-Basics of Light L3-Ray Model -I L4-Ray Model -II L5-Wave Model-I L6-Wave Model-II L7-Wave Model-III L8-Signal Distortion - I L9-Signal Distortion - II L10-Signal Distortion - III L11-Practical issues in Implementation of Fiber link L12-Optical Sources L13-Light Emitting Diodes -I L14-Light Emitting Diodes -II L15-Laser - I L16-Laser - II L17-Laser - III L18-Laser - IV L19-Laser - V + Photon Detector L20-Photo Diodes and Detector Noise L21-Photo Detector L22-Optical Receivers - I L23-Optical Receivers - II L24-Receiver Sensitivity Degradation L25-Fiber Optic Link Design L26-Wavelength Division Multiplexed Systems L27-EDFA L28-Integrated Optics - I L29-Integrated Optics - II L30-Tutorials -I L31-Tutorials -II L32-Introduction to Non-Linear Fiber Optics L33-Non-linear Schrodinger Equation L34-Group Velocity Dispersion (GVD) L35-Self Phase Modulation (SPM) L36-Solitonic Communication L37-Raman Amplifier L38-Cross Phase Modulation and four wave mixing L39-Laboratory Experiments -I L40-Laboratory Experiments -II L41-Laboratory Experiments -III
117101004	Electronics & Communication Engineering	Advanced VLSI Design	Prof. Virendra Singh	Video	IIT Bombay	Select L1-Historical Perspective and Future Trends in CMOS VLSI Circuit and System Design L2-Historical Perspective and Future Trends in CMOS VLSI Circuit and System Design - Part II L3-Logical Effort - A way of Designing Fast CMOS Circuits L4-Logical Effort - A way of Designing Fast CMOS Circuits continued L5-Logical Effort - A way of Designing Fast CMOS Circuits -Part III L6-Power Estimation and Control in CMOS VLSI circuits L7-Power Estimation and Control in CMOS VLSI circuits continued L8-Low Power Design Techniques L9-Low Power Design Techniques -Part II L10-Arithmetic Implementation Strategies for VLSI L11-Arithmetic Implementation Strategies for VLSI -Part II L12-Arithmetic Implementation Strategies for VLSI -Part III L13-Arithmetic Implementation Strategies for VLSI -Part IV L14-Interconnect aware design: Impact of scaling, buffer insertion and inductive peaking L15-Interconnect aware design: Low swing and Current mode signaling L16-Interconnect aware design: capacitively coupled interconnects L17-Introduction to Hardware Description Languages L18-Managing concurrency and time in Hardware Description Languages L19-Introduction to VHDL L20-Basic Components in VHDL L21-Structural Description in VHDL L22-Behavioral Description in VHDL L23-Introduction to Verilog L24-FSM + datapath (GCD example) L25-FSM + datapath (continued) L26-Single Cycle MMIPS L27-Multicycle MMIPS L28-Multicycle MMIPS – FSM L29-Brief Overview of Basic VLSI Design Automation Concepts L30-Netlist and System Partitioning L31-Timing Analysis in the context of Physical Design Automation L32-Placement algorithm L33-Introduction to VLSI Testing L34-VLSI Test Basics - I L35-VLSI Test Basics - II L36-VLSI Testing: Automatic Test Pattern Generation L37-VLSI Testing: Design for Test (DFT) L38-VLSI Testing: Built-In Self-Test (BIST) L39-VLSI Design Verification: An Introduction L40-VLSI Design Verification: An Introduction L41-VLSI Design Verification: Equivalence/Model Checking L42-VLSI Design Verification: Model Checking
117101050	Electronics & Communication Engineering	Broadband Networks: Concepts and Technology	Prof. Abhay Karandikar	Video	IIT Bombay	Select Introduction to Broadband Networks Qos in Packet Switching and ATM ATM Networks Effective Bandwidth - I Effective Bandwidth - II Traffic Descriptor in ATM Calculus for QOS - I Calculus For Qos - II Packet Scheduling Algorithm Introduction Fluid Fair Queueing and Weighted Fair Queueing Virtual Time In Scheduling Fairness of WFO and SCFO Scheduling Algorithms Rate Proportional Servers Latency Rate Servers - I Latency Rate Servers - II And Delay Bounds QOS In Best Effort Internet TCP Congestion Control Analysis of TCP TCP Throughput Buffer Management IP Addressing Scheme IP Addressing Lookup And Packet Classification IP Over ATM Multiple Label Switching (MPLS) MPLS and Traffic Engineering Optical Network and MPLS Integrated Service Internet (IntServ) and RSVP Differentiated Services Internet Voice over IP RTP Metro Ethernet Access Networks Metro Ethernet Access Networks
117101051	Electronics & Communication Engineering	Digital Communication	Prof. Bikash Kumar Dey	Video	IIT Bombay	Select Introduction to Digital Communication Sampling Quantization , PCM and Delta Modulation Probability and Random Process Probability and Random Processes (Part - 2) Channels and their Models Channels and their Models (Part -2) Information Theory (Part - 1) Information Theory (Part - 2) Bandpass Signal Representation (Part 1) Bandpass Signal Representation (Part - 2) Digital Modulation Techniques (Part - 1) Digital Modulation Techniques (Part - 2) Digital Modulation Techniques (Part - 3) Digital Modulation Techniques Part - 4 Digital Modulation Techniques Part - 5 Digital Modulation Techniques (Part - 6) Digital Modulation Techniques (Part - 7) Digital Modulation Techniques (part - 8) Digital Modulation Techniques (Part - 9) Digital Modulation Techniques (Part - 10) Probability of Error Calculation Calculation of Probability of Error Calculation of Probability of Error Equalizers Source Coding (Part - 1) Source Coding (Part - 2) Source Coding Part - 3 Source Coding Part 4 Channel Coding Fundamentals of OFDM Conclusion
117101053	Electronics & Communication Engineering	Information Theory and Coding	Prof. S.N. Merchant	Video	IIT Bombay	Select L1- Introduction to Information Theory and Coding L2-Definition of Information Measure and Entropy L3-Extention of An Information Source and Markov Source L4-Adjoint of An Information Source, Joint and Conditional Information Measure L5-Properties of Joint and Conditional Information Measures and A Morkov Source L6-Asymptotic Properties of Entropy and Problem Solving in Entropy L7-Block Code and its Properties L8-Instantaneous Code and Its Properties L9-Kraft-Mcmillan Equality and Compact Codes L10-Shannon's First Theorem L11-Coding Strategies and Introduction to Huffman Coding L12-Huffman Coding and Proof of Its Optamality L13-Competitive Optamality of The Shannon Code L14-Non-Binary Huffman Code and Other Codes L15-Adaptive Huffman Coding Part-I L16-Adaptive Huffman Coding Part-II L17-Shannon-Fano-Elias Coding and Introduction to Arithmetic Coding L18-Arithmetic Coding Part-I L19-Arithmetic Coding Part-II L20-Introdution to Information Channels L21-Equivocation and Mutual Information L22-Properties of Different Information Channels L23-Reduction of Information Channels L24-Properties of Mutual Information and Introdution to Channel Capacity L25-Calculation of Channel Capacity for Different Information Channels L26-Shannon's Second Theorem L27-Discussion On Error Free Communication Over Noisy Channel L28-Error Free Communication Over A Binary Symmetric Channel and Introdution to Continous Sources and Channels L29-Differential Entropy and Evaluation of Mutual Information for Continuous Sources and Channels L30-Channel Capacity of A BandLimited Continuous Channel L31-Introduction to Rate-Distortion Theory L32-Definition and Properties of Rate-Distortion Functions L33-Calculation of Rate-Distortion Functions L34-Computational Approach for Calculation of Rate-Distortion Functions L35-Introdution to Quantization L36-Lloyd-Max Quantizer L37-Companded Quantization L38-Variable Length Coding and Problem Solving in Quantizer Design L39-Vector Quantization L40-Transform Coding Part-I L41-Transform Coding Part-II
117101054	Electronics & Communication Engineering	Optical Communication	Prof. R.K. Shevgaonkar	Web	IIT Bombay	Select Lecture-1 Introduction Lecture-2 Ray Model Lecture-3 Wave Model Lecture-4 Wave Model II Lecture-5 Signal Distortion on Optical Fibers - Attenuation Lecture-6 Signal Distortion on Optical Fibers - Dispersion Lecture-7 LED - I Lecture-8 LED - II Lecture-9 Introduction - Basics of stimulated emission Lecture-10 Line Broadening in Lasers Lecture-11 Rate equations for Lasers Lecture-12 Various types of Lasers Lecture-13 Principle of Photo Detection Lecture-14 Photodiodes Lecture-15 Receiver Noise and Bit Error Ratio Lecture-16 Link Design Lecture-17 System Degradation and Power Penalty Lecture-18 Measurements on Fiber Optic Systems Lecture-19 SONET Lecture-20 ERBIUM DOPED FIBER AMPLIFIERS (EDFA) Lecture-21 Integrated Optics I Lecture-22 Integrated Optics II Lecture-23 Fiber Bragg Grating Based Devices Lecture-24 WDM Components - I Lecture-25 WDM Components - II Lecture-26 WDM Networks Lecture-27 Raman Amplifier Lecture-28 Non-linear fiber optics I Lecture-29 Non-linear fiber optics II
117101055	Electronics & Communication Engineering	Signals and Systems	Prof. V.M. Gadre	Web	IIT Bombay	Select Lecture-1 Introduction Lecture-2 Description of Signals Lecture-3 Description of Systems Lecture-4 Properties of Systems Lecture-5 Discrete-Time Convolution Lecture-6 Basic Signals in Detail Lecture-7 Linear Shift Invariant Systems Lecture-8 Classification of Systems Lecture-9 Continuous LTI Systems Lecture-10 Properties of LTI Systems Lecture-11 Differential and Difference Equations Lecture-12 Problem set 1 Lecture-13 Introduction to Transformations Lecture-14 Fourier Series Representation of Periodic Signals Lecture-15 Convergence of Fourier Series and Gibbs Phenomenon Lecture-16 Fourier Transform Lecture-17 Fourier Transform as a System Lecture-18 Fourier Transform of periodic signals and some Basic Pr Lecture-19 The Convolution Theorem Lecture-20 Periodic Convolution and Auto-Correlation Lecture-21 Properties of Fourier Transform Lecture-22 Problem set 2 Lecture-23 Sampling Lecture-24 Sampling and Reconstruction of Band-Limited Signals Lecture-25 Low pass filter Lecture-26 Realistic Sampling of Signals Lecture-27 Aliasing (Under Sampling) Lecture-28 Ideal low pass filter Lecture-29 Digital Signal Processing Lecture-30 Discrete time Fourier transform and its Properties Lecture-31 Inverse Discrete Time Fourier delve Lecture-32 Problem set 3 Lecture-33 Laplace Transform Lecture-34 Z Transform and Region of Convergence Lecture-35 Properties of Laplace and Z Transform Lecture-36 Inverse Laplace and Z Transform Lecture-37 Rational System Functions Lecture-38 Inverse Laplace and Z Transform of Rational Functions Lecture-39 Analysis of LTI Systems with Rational System Functions Lecture-40 Problem set 4 Lecture-41 Table of contents
117101056	Electronics & Communication Engineering	Transmission Lines and EM Waves	Prof. R.K. Shevgaonkar	Video	IIT Bombay	Select Introduction to EM waves and various techniques of communication Equations of Voltage and Current on TX line Propagation constant, Characteristic impedance and reflection coefficient Impedance Transformation Loss-less and Low loss Transmission line and VSWR Power transfer on TX line Smith Chart Admittance Smith Chart Experimental setup for transmission line measurements Applications of transmission lines Applications of transmission lines-II Impedance Matching Lossy Transmission Line Problems on Transmission line Types of transmission line Basics of Vectors Vector calculus Basic laws of Electromagnetics Maxwell\\\'s Equations Boundary conditions at Media Interface Uniform plane wave Propagation of wave Wave polarization Pioncere\\\'s Sphere Wave propagation in conducting medium Wave propagation and phase velocity Power flow and Poynting vector Surface current and power loss in a conductor Plane wave in arbitary direction Plane wave at dielectric interface Reflection and refraction at media interface Total internal reflection Polarization at media interface Reflection from a conducting boundary Parallel plane waveguide Wave propagation in parallel plane waveguide Analysis of waveguide general approach Rectangular waveguide Modal propagation in rectangular waveguide Surface currents on the waveguide walls Field visualization and Attenuation in waveguide Attenuation in waveguide continued Radiation (Antenna) Solution for potential function Radiation form the Hertz dipole Power radiated by hertz dipole Thin linear antenna Radiation Parameters of antenna Receiving antenna Monopole and Dipole antenna Fourier transform relation between current and radiation pattern Antenna arrays Uniform Linear array Uniform Linear array continued Synthesis of array Binomial array and general array synthesis Problems on uniform plane wave Problems on uniform plane wave in a meduim Problems on waveguides Problems on Antennas and radiation
117101057	Electronics & Communication Engineering	Transmission Lines and EM Waves	Prof. R.K. Shevgaonkar	Web	IIT Bombay	Select Lecture -Introduction Lecture -2 Transmission Lines in Practice Lecture -3 Transmission lines analysis Lecture -4 Physical Interpretation of Voltage & Current Solution Lecture -5 Standing waves on transmission line & impedance tr Lecture -6 Loss less transmission line Lecture -7 Impedance characteristics of loss less transmission Lecture -8 Power transfer through a transmission line Lecture -9 Graphical approach for transmission analysis Lecture -10 Transmission line calculations using smith chart Lecture -11 Transmission line analysis in terms of admittance Lecture -12 Applications of transmission line Lecture -13 Application of Transmission Lines(cont.) Lecture -14 Application of Transmission Lines continues Lecture -15 Impedance Matching using Transmission Line Lecture -16 Impedance matching using transmission line (contd) Lecture -17 Measurement of characteristics parameters of variou Lecture -18 Basics of Vector Algebra Lecture -19 Electrostatics Lecture -20 Magnetostatics and Ohms Law Lecture -21 Basic Laws of Electromagnetics Lecture -22 Basic Laws of Electromagnetics (contd.) Lecture -23 Maxwell's equations in Differential and Integral form Lecture -24 Maxwell's Equations in Homogeneous Unbound Source Free Lecture -25 Solution of Wave Equation in Homogeneous Unbound medium Lecture -26 Polarization of a transverse Electro Magnetic Wave Lecture -27 Representation of States of Polarization Lecture -28 Uniform Plane Wave in a Conducting Media Lecture -29 Propogation Constant for Different Media Lecture-30 Phase Velocity of a Wave Lecture 31 Power Flow in a Medium Lecture 32 Plane Wave in Arbitrary Direction Lecture -33 Concept of Phase and Group Velocity Lecture -34 Plane Wave at Dielectric Interface Lecture -35 Reflection & Refraction from Dielectric Interface Lecture -36 Reflection & Refraction from Dielectric Interface (Cont Lecture -37 Total Internal Reflection Lecture -38 Wave Polarization at Media Interface Lecture -39 Electro Magnetic Waves at Conducting Boundaries Lecture -40 Introduction of Parallel Waveguide Lecture -41 Transverse Electric and Magnetic Mode Lecture -42 Phase Velocity and Dispersion Lecture -43 Rectangular Wave Guide and Transverse Magnetic Mode Lecture -44 Transverse Electric Mode in Rectangular Waveguide Lecture -45 Visualization of Modal fields inside Rectangular Wavegu Lecture -46 The Surface Current on the Waveguide Walls Lecture -47 Antenna-Introduction Lecture -48 Hertz Dipole Antenna Lecture -49 Radiation Characteristics of an Antenna Lecture -50 Linear Antennas Lecture -51 Antenna Arrays Lecture -52 Array Synthesis
117101058	Electronics & Communication Engineering	VLSI Design	Prof. A.N. Chandorkar	Web	IIT Bombay	Select Lecture-1 Motivation of the Course Lecture-2 System approach to VLSI Design Lecture-3 Introduction to MOSFET Lecture-4 MOSFET Capacitor Lecture-5 MOSFET Capacitor (contd..) Lecture-6 MOSFET I-V Characteristics Lecture-7 Advanced Topics Lecture-8 Short Channel Effects Lecture-9 Introduction to Fabrication Process Lecture-10 Introduction to Fabrication Process Lecture-11 General Aspects of CMOS Technology (contd...) Lecture12 CMOS Inverter Fabrication Process Lecture-13 Layout Design Rules Lecture-14 Layout Design Rules (Contd...) Lecture-15 CMOS Inverter Characteristics Lecture-16 Propagation Delay Calculation of CMOS Inverter Lecture-17 Pseudo NMOS Inverter Lecture-18 Dependence of Propagation delay on Fan-in and Fan-out Lecture-19 Analyzing Delay for various Logic Circuits Lecture-20 Analyzing Delay in few Sequential Circuits Lecture-21 Logical Effort Lecture-22 Logical Effort Calculation of few Basic Logic Circuits Lecture-23 Logical Effort of Multistage Logic Networks Lecture-24 Methods for Reduction of Delays in Mutlistage Logic Net Lecture-25 Designing Asymmetric Logic Gates Lecture-26 Power Disipation in CMOS Circuits Lecture-27 Basics of Seminconductor Memories Lecture-28 Static Random Access Memory (SRAM) Lecture-29 Basics Of DRAM Cell And Access Time Consideration Lecture-30 SRAM and DRAM Peripherals Lecture-31 Semiconductor ROMs Lecture-32 Few special Examples of Memories Lecture-33 I/O PADs
117101105	Electronics & Communication Engineering	CMOS Analog VLSI Design	Prof. A.N. Chandorkar	Video	IIT Bombay	Select Lecture 1 : Introduction to CMOS Analog VLSI Design Lecture 2 : Introduction to CMOS Analog VLSI Design contd..... Lecture 3 : MOS Fundamentals Lecture 4 : MOS Fundamentals contd... Lecture 5 : Basic of MOS Amplifier (part-1) Lecture 6 : Basic of MOS Amplifier ( Part-2) Lecture 7 : Basic of MOS Amplifier ( Part-3) Lecture 8 : Cascode Amplifier Lecture 9 : Types of MOSFET Amplifier Lecture 10 : Types of MOSFET Amplifier Lecture 11 : Differential Amplifier Lecture 12 : Differential Amplifier Lecture 13 : Current Sources Lecture 14 : Current Sources Lecture 15 : Current Sources Lecture 16 : Frequency Response of Amplifier Lecture 17 : Basic of CMOS OPAMP Lecture 18 : OPAMP Design Issues Lecture 19 : OPAMP Design Lecture 20 :OPMAP Design Lecture 21: Operational Transconductance Amplifier Lecture 22 :OTA Operation Transconductance Amplifier and Application Lecture 23 : Fully Differential Amplifier and Noise Lecture 24 : Noise Lecture 25 : Noise contd...... Lecture 26 : Layout of Analog Circuit Lecture 27 : Oscillators Lecture 28 : Oscillators contd..... Lecture 29 : Oscillators contd.....
117101106	Electronics & Communication Engineering	Analog Circuits	Prof. A.N. Chandorkar	Video	IIT Bombay	Select Lecture 1: Introduction to Analog Circuits - An Overview Lecture 2: Two Parts of Review of Analog Filter Approximation Lecture 3: BJT Small Signal Model Lecture 4: BJT Small Signal Model [Continuation from Lecture 3] Lecture 5: MOS Circuit Model Lecture 6: Biasing of Circuits Lecture 7: Amplifiers Lecture 8: MOS Amplifiers Lecture 9: Cascode Amplifier Lecture 10: Frequency Response of Amplifier Lecture 11: Frequency Response of Amplifier Lecture 12: Frequency Response of Amplifier Lecture 13: Frequency Response of Amplifier Lecture 14: Differential Amplifier Lecture 15: Differential Amplifier Lecture 16: Differential Amplifier Lecture 17: Feedback Theory Lecture 18: Feedback Theory Lecture 19: OPAMP Circuits Lecture 20: OPAMP Circuits Lecture 21: Active RC Filters Lecture 22: Active Filters Lecture 23: Oscillators Lecture 24: Oscillators Lecture 25: DAC/ADC
117101119	Electronics & Communication Engineering	NOC:Microwave Integrated Circuits	Prof. Jayanta Mukherjee	Video	IIT Bombay	Select Lecture 1 : Introduction Lecture 2: Reflection Coefficient,VSWR,Smith Chart Lecture 3: Reflection Coefficient,VSWR Lecture 4 : Smith Chart Lecture 5 : Application of the Smith Chart Lecture 6 : Microwave Components Lecture 7 : Broadband Impedance Matching Lecture 8 : Multi-section transformer Lecture 9 : Maximally flat (binomial) transformer, Chebyshev transformer Lecture 10:Non-uniform transmission line(Tapers) Lecture 11: Scattering Parameters Lecture 12: Properties of Scattering Parameters Lecture 13:Properties of Scattering Parameters (contd.) Lecture 14: Signal flow graph, ABCD parameters Lecture 15: 1 and 2 Port passive Components Lecture 16: 3 Port Microwave Components Lecture 17: Couplers Lecture 18: Coupled Line Couplers Lecture 19: Resonators and narrow band filters Lecture 20: Narrow-band filters Lecture 21: Filter design: Image parameter method, Insertion loss method Lecture 22 : Filter synthesis, Kuroda’s Identity Lecture 23 : Impedance Matching Circuits for Amplifiers Lecture 24 : Microstrip Matching(contd.),Masons Rule,Power Gain Equations Lecture 25 : Amplifier Gain Stability Lecture 26 : Amplifier Gain Stability(Contd.) Lecture 27 : Gain Circles Lecture 28 : Gain Circles(contd.) Lecture 29 : Noise Lecture 30 : Noise Figure Circles(contd.) Lecture 31 : DC Bias Lecture 32 : Amplifier Classes,Frequency Compensation Lecture 33 : Linearity Lecture 34 : Oscillator Design
117101123	Electronics & Communication Engineering	NOC:Foundations of Wavelets and Multirate Digital Signal Processing	Prof. V.M. Gadre	Video	IIT Bombay	Select Piecewise constant representation of a function Introduction Origin of wavelets Haar wavelet Dyadic wavelet Dilates and translates of Haar wavelet L2 norm of a function Properties of norm Vector representation of sequences Demonstration: Piecewise constant approximation of functions Scaling function of Haar wavelet Ladder of subspaces Parsevals theorem Equivalence of functions & sequences Angle between Functions & their Decomposition Additional Information on Direct-Sum Introduction to filter banks Haar Analysis filter bank in Z-domain Haar Synthesis filter bank in Z-domain Moving from Z-domain to frequency domain Frequency Response of Haar Analysis Low pass Filter bank Frequency Response of Haar Analysis High pass Filter bank Ideal Two-band Filter bank Disqualification of Ideal Filter bank Realizable Two-band Filter bank Demonstration: DWT of images Relating Fourier transform of scaling function to filter bank Fourier transform of scaling function Construction of scaling and wavelet functions from filter bank Demonstration: Constructing scaling and wavelet functions. Conclusive Remarks and Future Prospects
117102012	Electronics & Communication Engineering	RF Integrated Circuits	Dr. Shouribrata Chatterjee	Video	IIT Delhi	Select RF system basic architectures Transmission media reflection Maximum power transfer Parallel RLC tank Matching Other matching networks Resistors capacitors Inductors Inductors and wires Wires Transmission lines Device review MOS capacitances Bandwidth estimation constants Bandwidth estimation constants (contd) Bandwidth estimation using short circuit Bandwidth groupdelay and peaking Shunt series amplifier Shunt series amplifier contd Various noise sources Noise in a mosfet Motivation first cut design Motivation first cut design contd Noise other possible topologies Multiplier Fundamentals Mixer non idealties Mixer non idealties contd A tank based oscillators Phase noise in oscillators Other oscillators topologies Phase locked loop basics Charge pump Pll dynamics integer Spurious frequencies fractional and synthesis Fractional spurs Delta and sigma modulation Class abc power amplifiers Class bcd power amplifiers Class cd pwm amplifiers Course summary and conclusion
117102059	Electronics & Communication Engineering	Communication Engineering	Prof. Surendra Prasad	Video	IIT Delhi	Select Introduction to Communication Engineering Communication channel Brief Review of Signal and Systems The Hilbert Transform Analytic Representation of band pass Signals Fundamentals of Analog Signal Transmission Analog Modulation of Carriers Amplitude Modulation Amplitude Modulation Single Sideband Modulation Suppressed Sideband Modulation VSB Modulation - Superhet Receiver Superhet Receiver etc Practical Mixers-Effects of Tonal Angle Modulation Angle Modulation Generation of FM Signals FM Generation and Detection Demodulation of Angle Modulated Signals Demodulation of Angle Modulated Signals Demodulation of Angle Modulated Signals Feedback Demodulators - phase locked loop The Phase Locked Loop Frequency Compressive Feedback Demodulator FM Receivers TV Transmission Review of Probability Theory and Random Process Review of Probability Theory and Random Variables Random Processes Random Processes Random Processes Gaussian Random Processes Behaviour of Communication System Performance of AM Systems in Noise Noise in AM and Angle Modulation Systems Noise in Phase and Frequency Modulation systems Noise in Angle Modulation Pre emphasis - De emphasis Pulse Modulation Schemes - PWM and PPM Data Modulation Pulse Code Modulation
117102060	Electronics & Communication Engineering	Digital Signal Processing	Prof. S.C. Dutta Roy	Video	IIT Delhi	Select Digital Signal Processing Introduction Digital Signal Processing Introduction Contd Digital Systems Characterization Description, Testing of Digital Systems LTI Systems Step & Impulse Responses, Convolution Inverse Systems,Stability,FIR & IIR FIR & IIR; Recursive & Non Recursive Discrete Time Fourier Transform Discrete Fourier Transform (DFT) DFT (Contd.) DFT (Contd.) Introduction to Z Transform Z Transform Z Transform (Contd.) Discrete Time Systems in the Frequency Domain Simple Digital Filters All Pass Filters,Com.Filters Linear Phase filters, Complementary Transfer Fn Compensatory Transfer Functions, (Contd.) Test for Stability using All Pass Functions Digital Processing of Continuous Time Signals Problem Solving Session: FT, DFT,& Z Transforms Problem Solving Session: FT,DFT, & Z Transforms Analog Filter Design Analog Chebyshev LPF Design Analog Filter Design (Contd.): Transformations Analog frequency Transformation Problem Solving Session on Discrete Time System Digital Filter Structures IIR Realizations All Pass Realizations Lattice Synthesis (Contd.) FIR Lattice Synthesis FIR Lattice (Contd.) and Digital Filter Design IIR Filter Design IIR Design by Bilinear Transformation IIR Design Examples Digital to Digital Frequency Transformation FIR Design FIR Digital Filter Design by Windowing FIR Design by Windowing & Frequency Sampling Solving Problems on DSP Structures FIR Design by Frequency Sampling FIR Design by Frequency Sampling (Contd.)
117102061	Electronics & Communication Engineering	Semiconductor Devices	Dr. G.S. Visweswaran	Web	IIT Delhi	Select Introduction Basic Semiconductor Physics Energy band and charge carriers in semiconductors Excess carriers in semiconductors PN junction in equilibrium I-V characteristics in Reverse Bias I-V characteristics in Forward Bias Dynamic characteristics Circuit Models Design Perspective Basic characteristics Characteristics in Forward Active Mode Dyamic characteristics High Level Injection Objects Characteristics in CutOff mode Circuit Models Design Perspective Schottky Barrier Height Static Barrier Characteristics Dynamic Characteristics Circuit Models Ohmic Contact The MOS Capacitor The MOSFET's The MESFET's
117102062	Electronics & Communication Engineering	Wireless Communication	Prof. Ranjan Bose	Video	IIT Delhi	Select Motivation and Introduction Types of Wireless communication The modern wireless Communication Systems The cellular concept - System Design issues Cell capacity and reuse Interference and System capacity Improving coverage and system capacity Mobile Radio Propagation Mobile Radio Propagation Contd Mobile Radio Propagation Contd Mobile Radio Propagation Contd Mobile Radio Propagation Contd Mobile Radio Propagation Contd Mobile Radio Propagation II Mobile Radio Propagation II Contd Mobile Radio Propagation II Contd Mobile Radio Propagation II Contd Mobile Radio Propagation II Contd Mobile Radio Propagation II Contd Mobile Radio Propagation II Contd Modulation Techniques for Mobile Communication Modulation Techniques (Contd.) Modulation Techniques (Contd.) Modulation Techniques (Contd.) Modulation Techniques (Contd.) Modulation Techniques (Contd.) Modulation Techniques (Contd.) Equalization and Diversity Techniques Equalization and Diversity Techniques (Contd.) Equalization and Diversity Techniques (Contd.) Equalization and Diversity Techniques (Contd.) Coding Techniques for Mobile Communications Coding Techniques for Mobile Communications Contd Coding Techniques for Mobile Communications Contd Coding Techniques for Mobile Communications Contd Wireless Networks GSM and CDMA GSM and CDMA Contd
117103017	Electronics & Communication Engineering	Queuing Systems	Prof. S.K. Bose	Web	IIT Guwahati	Select Introduction to Queueing Systems Analysis of a Simple Queue Basics of Markov Processes and Markov Chains Markov Chains, Birth-Death Processes, Flow Balance Kendall's Notation, Little's Result, PASTA, M/M/1/∞ Queue M/M/m/∞, M/M/m/m, M/M/1/K Queues, Delay Analysis Departure Process, Burke's Theorem Method of Stages, Batch Arrivals Residual Life Approach Imbedded Markov Chain Approach Delay Analysis Analysis of M/G/1 queue M/G/1 Queue with Multiple Vacations, Residual Life Approach M/G/1 Queue with Multiple Vacations Imbedded Markov Chain Approach M/G/1 Queue with Multiple Vacations, M/G/1 Queue with Exceptional First Service Imbedded Markov Chain at Job Departure Instants Imbedded Markov Chain at Batch Departure Instants Different Types of Priority Operation Analysis using the Residual Life Approach Analysis using the Imbedded Markov Chain Approach M/G/1/K Queue (Single Server Queue with Finite Capacity) Analysis of the M/G/1/K queue Proportionality Relationship, Alternate Analysis Analyzing the G/M/1 Queue Bounds and approximations for the G/G/1 and G/G/m Queues Analyzing the M/G/m/m Queue Introduction to Queuing Networks Classificationof Queueing Networks Fork-join Queues and Introduction to Blocking in Queueing Networks Blocking Models in queueing Networks Splitting and Combining Poisson Processes Jackson's Theorem for Open Networks Product Form Solution for Open Networks Jackson's Theorem for Closed Networks Using Jackson's Theorem for Closed Networks Examples: Analysis of Open and closed Networks Analysis of Closed Networks Convolution Algorithm Examples of analysis using Convolution Algorithm Mean Value Analysis Algorithm Examples of Analysis using MVA Algorithm Norton's Theorem Mixed Networks, QNA Introduction to Discrete Time Queues Geo/G/1 Queue-Late Arrival Model Geo/G/1 Queue- early Arrival Model Introduction Simulating a Queueing System Processing Simulation Results Problems-Introduction Problems-Markov Process and Markov Chains Problems-Basics of Queuing Problems- M/M/-/- Type Queues Problems-M/G/1 Queue Problems - Special Cases of the M/G/1 Queue Problems- M/G/1 Queue with Batch Arrivals Problems-Priority Operation of the M/G/1 Queue Problems-M/G/1/K -Finite Capacity M/G/1 Queue Problems- Open and Closed Networks of M/M/m Type Queues Problems- Analyzing Closed Networks with Convolution and Mean Value Analysis Algorithms Problems-Norton's Theorem, Mixed Networks, QNA Problems-Discrete Time Queues
117103018	Electronics & Communication Engineering	Signal Detection and Estimation Theory	Dr. R. Sinha	Web	IIT Guwahati	Select Introduction to Detection and Estimation Module1 Outline Classical Unbiased Estimator Bound and Fisher Information CRLB for Transformed Parameter CRLB for General Case Linear Model and Applications Module2 Outline General Linear Model Sufficient Statistics Determination of MVUE Linear Unbiased Estimator Module3 Outline Maximum Likelihood Estimation MLE in General Cases Properties of MLE Module4 Outline Least Squares Estimation Linear LSE LSE: Geometrical Interpretation Constrained LSE Module5 Outline Bayesian Estimation Properties of Bayesian Estimator General Bayesian Estimator Module6 Outline Linear Bayesian Estimator Wiener Smoother Wiener Filter Wiener Predictor Module7 Outline Hypothesis Testing Gauss-Gauss Detection Problem Bayesian Detector Minimax Detector Multiple Hypothesis Testing Bayesian Composite Hypothesis Testing Module8 Outline Generalized Likelihood Ratio Test Non-Parametric Detection: Sign Detector Module9 Outline Sequential Detection Replica-Correlator Detector Properties of Matched Filter Computation of Performance Generalized Matched Filter Signal Detection in Colored Noise Module10 Outline Detection and Linear Model Energy Detector Linear Model and Generalized Gaussian Detection Assignments
117103063	Electronics & Communication Engineering	Basic Electronics	Prof. Chitralekha Mahanta	Video	IIT Guwahati	Select Semiconductor materials PN Junction Diodes Diode Equivalent Circuits Diode Rectifier Circuits Zener Diode and Applications Clipping and Clamping Circuits Transistor Operation - Part - 1 Transistor Operation Part - 2 Biasing the BJT Biasing the BJT - Part - 2 BJT Small Signal Analysis BJT Amplifier - Part - 1 BJT Amplifier Part - 2 Frequency Response of BJT Analysis - Part - 1 Bipolar Junction Transistors Transistor as a Switch MOSFET - Part -1 MOSFET - Part - 2 MOSFET under dc operation Mosfet as an Amplifier Small signal model of MOSFET - Part 1 Small signal model of MOSFET - Part 2 High Frequency model of mosfet Junction Field Effect Transistor Operational Amplifier Introduction Ideal Op-Amp Op-Amp applications Part -1 Op-Amp Applications Part -2 Op-Amp Applications Part - 3 The practical Op-Amp Positive feedback and oscillation Comparator Large Signal Amplifiers Transformer Couple Power Amplifier Class AB Operations of PowerAmplifier Power BJTs Regulated Power Supply Four Layered Diode Silicon Control Rectifier SCR Applications
117103064	Electronics & Communication Engineering	Digital Circuits	Prof. Anil Mahanta	Web	IIT Guwahati	Select Digital and Analog Signals Advantages of digital signals Disadvantages Introduction-Number Systems Decimal Numbers Binary Numbers Octal Numbers Hexadecimal Numbers Properties of Two's Complement Numbers Introduction - Number Base Conversions Introduction- Boolean Algebra and Basic Operators BUFFER Minimal Logic Operator Sets Three State Outputs Introduction- Analyses and Synthesis of Combinational Logic Circuits Canonical and Standard forms SUM OF PRODUCTS (OR of AND terms) PRODUCT OF SUMS ( AND of OR terms) Algebraic minimization Karnaugh Map (or K-map) minimization 5 Variable K Maps TTL Introduction- CMOS Logic Logic Threshold Voltage Levels Integrated Injection Logic Emitter Coupled Logic Introduction- MEMORIES VOLATILE MEMORIES Static Random Access Memory (SRAM) Dynamic Random Access Memory (DRAM) NON-VOLATILE MEMORIES NOR ARCHITECTURE NAND ARCHITECTURE
117103065	Electronics & Communication Engineering	Electromagnetic Fields	Dr. Ratnajit Bhattacharjee	Web	IIT Guwahati	Select Introduction Vector Analysis Coordiante systems and Transformations Line, surface and volume integrals Divergence Theorem Stoke's theorem Introduction Coulomb's Law Electric Field Electric flux density Gauss's Law with Application Electrostatic Potential and Equipotential Surfaces Boundary conditions for Electrostatic fields Capacitance and Capacitors Electrostatic Energy and Energy Density Poisson?s and Laplace?s Equations Uniqueness Theorem Method of Images Electrostatic boundary value problem Introduction Current Density and Ohm's Law Electromagnetic force and Kirchoff's Voltage Law Continuity Equation and Kirchoff's Current Law. Power Dissipation and Joule's law Introduction Biot- Savart Law and its Applications Ampere's Circuital Law and its Applications Magnetic Flux Density Magnetic Scalar and Vector Potentials Boundary Condition for Magnetic Fields Inductance and Inductor Energy stored in Magnetic Field Introduction Faraday's Law of electromagnetic Induction Maxwell's Equation Boundary Conditions for Electromagnetic fields Time Harmonic Fields ?The Helmhotz Equation Plane waves in Lossless medium Plane waves in a lossy medium Poynting Vector and Power Flow in Electromagnetic Fields Polarisation of plane wave Behaviour of Plane waves at the inteface of two media Introduction Fundamentals of Radiation Radiated field of an Herzian dipole Basic Antenna Parameters Half Wave Dipole Antenna Quarter Wave Monopole Antenna Small Loop Antennas Introduction to Antenna Arrays Introduction Finite difference Method Basic Concepts of the Method of Moments Method of Moment for Wire Antennas and Wire Scatterers Additional Solved Example-Mathematical Fundamentals Assignment Problems-Mathematical Fundamentals Additional Solved Example-Static Electric Fields Assignment Problems-Static Electric Fields Fundamentals Additional Solved Example-Steady Electric Currents Assignment Problems-Steady Electric Currents Additional Solved Example-Steady Magnetic Field Assignment Problems-Steady Magnetic Field Additional Solved Example-Time varying fields and Maxwell's equations Assignment Problems-Time varying fields and Maxwell's equations Additional Solved Example-Electromagnetic wave Additional Solved Example-Fundamentals of Antennas and Radiating systems Introductory and Intermediate Advanced level Web resources Quick Links Appendix 1 Appendix 2 Appendix 3
117103066	Electronics & Communication Engineering	IC Technology	Prof. Roy Paily Palanthinkal	Web	IIT Guwahati	Select MOS Transistors and Switches CMOS Logic Circuit and System Representation Introduction MOS Device Current-Voltage Equations Complementary CMOS Inverter - DC Characteristics Introduction Crystals and Growth Cleaning and Etching of wavers Oxidation of Silicon Thin Film Deposition Basic CMOS Technology Basic n-well CMOS process P-well process Twin-Tub process Ion-Implantation and Diffusion Silicon-on-Insulator process CMOS Process Enhancements Interconnects Circuit Elements Latch-up Physical origin Triggering Prevention techniques Technology-related CAD issues Introduction Resistance Estimation Capacitance Estimation Switching characteristics Analytic delay models Gate delay CMOS-gate transistor sizing Power Dissipation Scaling of MOS transistor dimensions References
117103067	Electronics & Communication Engineering	Probability and Random Processes	Prof. Prabin K Bora	Web	IIT Guwahati	Select Introduction to Probability Basic Concepts of Set Theory Probability Concepts Probability Using Counting Method Conditional probability Repeated Trials Random Variables Discrete, Cont.., Mix RV Conditional Distribution Functions of Random Variables Expected Value of a RV Characteristic functions of RV Important Discrete RV Geometric RV Uniform RV Exponential RV Simulation of RV Jointly Distributed RV Conditional Distributions Transformation of Two Random RV Joint PDF functions of two RV Expected Values of Functions of RV Jointly Gaussian RV Conditional Expectation Random Variables Vector space Interpretation of RV Convergence Central Limit Theorem Random Processes Important Classes of RP Poisson Processes Stationary Random Process Real WSS Random Process Continuity and Differentiation of RP Time averages and Ergodicity Wide-sense Stationary RP Cross Power Spectral Density White noise process Linear time-invariant systems Discrete-time Linear Shift Invariant System Linear Systems Bandpass Random Processes Problem Set-Basic Concepts of Set Theory Problem Set-Probability Concepts Problem Set-Probability Using Counting Method Exercise-Introductio to Probability Exercise-Random Variables Exercise-Sequence of RV & Convergence Exercise-Random Process
117103125	Electronics & Communication Engineering	NOC:VLSI Design Verification and test	Dr. Santosh Biswas	Video	IIT Guwahati	Select Scan Chain based Sequential Circuit Testing II Scan Chain based Sequential Circuit Testing I D-Algorithm II ATPG for Synchronous Sequential Circuits D-Algorithm I Introduction to Automatic Test Pattern Generation (ATPG) and ATPG Algebras Testability Measures (SCOAP) Fault Simulation III Fault Simulation II Fault Equivalence Fault Simulation I Functional and Structural Testing Introduction to Digital VLSI Testing Symbolic Model Checking OBDD for State Transition Systems E Operation On OBDD Ordered Binary Decision Diagram (OBDD) Binary Decision Diagram: Introduction and Construction Model Checking with Fairness Model checking Algorithms continued. Model checking Algorithms Introduction to Model Checking Equivalences between CTL Formulas Syntax and semantics of CTL continued Syntax and Semantics of CLT Temporal Logic: Introduction and Basic Operations on Temporal Logic Introduction to formal methods for design verification Physical Design (Part-3) Physical Design (Part-2) Physical Design (Part-1) Logic Synthesis (Part-3) Logic Synthesis (Part-2) Logic Synthesis (Part-1) Resource Sharing and Binding in HLS (Part-7) Resource Sharing and Binding in HLS (Part-6) Resource Sharing and Binding in HLS (Part-5) Resource Sharing and Binding in HLS (Part-4) Resource Sharing and Binding in HLS (Part-3) Resource Sharing and Binding in HLS (Part-2) Resource Sharing and Binding in HLS (Part-1) Scheduling in HLS (Part-7) Scheduling in HLS (Part-5) Scheduling in HLS (Part-6) Scheduling in HLS (Part-4) Scheduling in HLS (Part-3) Scheduling in HLS (Part-2) Scheduling in HLS (Part-1) High Level Synthesis Overview Part 2 High Level Synthesis Overview Part 1 Overview of VLSI Design Flow Introduction Part-2 Introduction Part-1 BIST I BIST II
117104020	Electronics & Communication Engineering	Digital Video Signal Processing	Prof. Sumana Gupta	Web	IIT Kanpur	Select Lec1 Lec2 Lec3 Lec4 Lec5 Lec6 Lec7 Lec8 Lec9 Lec10 Lec11 Lec12 Lec13 Lec14 Lec15 Lec16 Lec17 Lec18 Lec19 Lec20 Lec21 Lec22 Lec23 Lec24 Lec25 Lec26 Lec27 Lec28 Lec29 Lec30 Lec31 Lec32 Lec33 Lec34 Lec35 Lec36 Lec37 Lec38 Lec39 Lec40 Lec41 Lec42 Lec43 References Modules1_2 Module3 Module4 Module5 Modules7_8
117104022	Electronics & Communication Engineering	Semiconductor Optical Communication Components and Devices	Dr. Utpal Das	Web	IIT Kanpur	Select Lec1 Lec2 Lec3 Lec4 Lec5 Lec6 Lec7 Lec8 Lec9 Lec10 Lec11 Lec12 Lec13 Lec14 Lec15 Lec16 Lec17 Lec18 Lec19 Lec20 Lec21 Lec22 Lec23 Lec24 Lec25 Lec26 Lec27 Lec28 Lec29 Lec30 Lec31 Lec32 Lec33 Lec34 Lec35 Lec36 Lec37 Lec38 Lec39 Lec40 Lec41
117104069	Electronics & Communication Engineering	Digital Image Processing	Prof. Sumana Gupta	Web	IIT Kanpur	Select Concept of Visual Information Perception Sampling Image Transformations Image Enhancement Restoration
117104070	Electronics & Communication Engineering	Digital Signal Processing	Prof. Govind Sharma	Web	IIT Kanpur	Select Introduction Simple Operations and properties of Sequences Discrete-Time Systems Time-Domain Representation for Linear Time-Invariant Systems The Discrete Time Fourier Transform Discrete fourier series and Discrete fourier transform The Z-transform Discrete time processing of continous time signals Digital Filters
117104071	Electronics & Communication Engineering	High Speed Semiconductor Devices	Prof. Anjan Ghosh	Web	IIT Kanpur	Select High Speed Semiconductor Devices Quantum Physics Solution of Schr?dinger Equation Finite Potential Well Linear Harmonic oscillator Energy Band Theory Kronig - Penney Analysis Eigen value equation Energy in Brillioun Zone representation Motion of electrons in Energy Bands Effect of External forces Mobility Oscillation Frequency and Dispersion Lattice Scattering for mobility Scattering in Semiconductors Carrier Density Maxwell-Bottzman approximation Extensive doping Generation-Recombination process in semiconductors Diffusion and Conrinuity Equation Diodes P-N junction diodes Diffusion Capacitance Varactor diode structure PIN Diode Schottky Diode MESFET(Metal Semiconductor Field Effect Transistor) Drain Current Semiconductor Helerojunction Bipolar junction Transistor 1st order model of BJJ Heterojunction Bipolar Transistor Heterojunction FET-
117104072	Electronics & Communication Engineering	Microcontrollers and Applications	Dr. S.P. Das	Web	IIT Kanpur	Select Introduction to Microcontrollers & Microprocessors Basic Architectures of Microcontrollers Processor Types & Memory Structures Organization of Data Memory Introduction to Intel 8051 Microcontroller Addressing Modes & Port Structure External Memory Access Timers Interrupts in 8051 Program Branching Instructions Serial Communication - I Serial Communication - II 8051 Instruction Set 8051 Sample Assembly Lanaguage Programs Atmd AT89C51 MicroController Programming Introduction to PIC Microcontrollers Basic Architecture of PIC Microcontrollers Instruction Set of PIC Microcontroller I/O Port Configuration Timer modules in PIC Microcontroller Timer modules in PIC Microcontroller (contd.) CCP Modules Analog to Digital Convertor Module Synchronous Serial Port (SSP) Module I/O Port Expansion using Serial Peripheral Interface (SPI) I 2C Communication in PIC Microcontroller Software for I 2C Communication Parallel slave port Architecture of 8086 Muti-User/ Multi-Tasking Operating System Memory Management in Advanced Microprocessors Architecture of Intel 80286 Intel 80386 - A 32-bit Microprocessor with Memory Paging Facility Use of Translation Look-aside Buffer (TLB) in 80386 Pentium Architecture PowerPC Architecture Simulator and Programmer for 8051 Interfacing of A/D and D/A with AT89C51 Blinking of LED using AT89C51 Frequency Divider Using AT89C51 External Interrupt with AT89C51 Interfacing a Keypad with AT89C51 Interfacing PIC16F877 Microcontroller with an LCD Blinking LED with PIC16F877A PIC Serial Communication using Serial Peripheral Interface (SPI)
117104074	Electronics & Communication Engineering	Signals and Systems	Prof. K.S. Venkatesh	Video	IIT Kanpur	Select Lecture01 Lecture02 Lecture03 Lecture04 Lecture05 Lecture06 Lecture07 Lecture08 Lecture09 Lecture10 Lecture11 Lecture12 Lecture13 Lecture14 Lecture15 Lecture16 Lecture17 Lecture18 Lecture19 Lecture20 Lecture21 Lecture22 Lecture23 Lecture24 Lecture25 Lecture26 Lecture27 Lecture28 Lecture29 Lecture30 Lecture31 Lecture32 Lecture33 Lecture34 Lecture35 Lecture36 Lecture37 Lecture38 Lecture39 Lecture40 Lecture41 Lecture42 Lecture43 Lecture44 Lecture45
117104099	Electronics & Communication Engineering	Advanced 3G and 4G Wireless Mobile Communications	Prof. Aditya K. Jagannatham	Video	IIT Kanpur	Select Lecture-1-Introduction to 3G/4G Standards Lecture-2-Wireless Channel and Fading Lecture-3-Rayleigh Fading and BER of Wired Communication Lecture-4- BER for Wireless Communication Lecture 5 -Introduction to Diversity Lecture 6 - Multi-antenna Maximal Ratio Combiner Lecture7-BER with Diversity Lecture 8-Spatial Diversity and Diversity Order Lecture 9-Wireless Channel and Delay Spread Lecture 10-Coherence Bandwidth of the Wireless Channel Lecture 11-ISI and Doppler in Wireless Communications Lecture 12-Doppler Spectrum and Jakes Model Lecture 13-Introduction to CDMA, Spread Spectrum and LFSR Lecture 14-Generation and Properties of PN Sequences Lecture 15-Correlation of PN Sequences and Jammer Margin Lecture 16-CDMA Advantages and RAKE Receiver Lecture 17-Multi-User CDMA Downlink Part I Lecture 18-Multi-User CDMA Downlink Part II Lecture 19-Multi-User CDMA Uplink and Asynchronous CDMA Lecture 20-CDMA Near-Far Problem and Introduction to MIMO Lecture 21-MIMO System Model and Zero-Forcing Receiver Lecture 22-MIMO MMSE Receiver and Introduction to SVD Lecture 23-SVD Based Optimal MIMO Transmission and Capacity Lecture 24-SVD Based Optimal MIMO Transmission and Capacity Lecture 25-OSTBCs and Introduction to V-BLAST Receiver Lecture 26-V-BLAST (Contd.) and MIMO Beamforming Lecture 27- Introduction to OFDM and Multi-Carrier Modulation Lecture 28-IFFT Sampling for OFDM Lecture 29-OFDM Schematic and Cyclic Prefix Lecture 30-OFDM Based Parallelization and OFDM Example Lecture 31-OFDM Example (Contd.) and Introduction to MIMO-OFDM Lecture 32- MIMO-OFDM (Contd.) Lecture 33-Impact of Carrier Frequency Offset (CFO) in OFDM Lecture 34-PAPR in OFDM Systems and Introduction to SC-FDMA Lecture 35-SC-FDMA (Contd.) and Introduction of Wireless Propagation Models Lecture 36-Ground Reflection and Okumura Models Lecture 37-Hata Model and Log Normal Shadowing Lecture 38-Link Budget Analysis Lecture 39-Introduction to Teletraffic Theory Lecture 40-Cellular Traffic Modeling and Blocking Probability
117104104	Electronics & Communication Engineering	Digital Switching	Prof. Yatindra N Singh	Video	IIT Kanpur	Select Lecture-01 Digital Switching Lecture-02 Digital Switching Lecture-03 Digital Switching Lecture-04 Digital Switching Lecture-05 Digital Switching Lecture-06 Digital Switching Lecture-07 Digital Switching Lecture-08 Digital Switching Lecture-09 Digital Switching Lecture-10 Digital Switching Lecture-11 Digital Switching Lecture-12 Digital Switching Lecture-13 Digital Switching Lecture-14 Digital Switching Lecture-15 Digital Switching Lecture-16 Digital Switching Lecture-17 Digital Switching Lecture-18 Digital Switching Lecture-19 Digital Switching Lecture-20 Digital Switching Lecture-21 Digital Switching Lecture-22 Digital Switching Lecture-23 Digital Switching Lecture-24 Digital Switching Lecture-25 Digital Switching Lecture-26 Digital Switching Lecture-27 Digital Switching Lecture-28 Digital Switching Lecture-29 Digital Switching Lecture-30 Digital Switching Lecture-31 Digital Switching Lecture-32 Digital Switching Lecture-33 Digital Switching Lecture-34 Digital Switching Lecture-35 Digital Switching Lecture-36 Digital Switching Lecture-37 Digital Switching
117104115	Electronics & Communication Engineering	NOC:Principles of Modern CDMA/ MIMO/ OFDM Wireless Communications(Course sponsored by Aricent)	Prof. Aditya K. Jagannatham	Video	IIT Kanpur	Select Evolution of Wireless Communication Technologies Modeling Wireless Channel Wireless Fading Channel Model Fading Channel Distribution Rayleigh Fading Channel Bit Error Rate (BER) Performance Bit Error Rate (BER) of AWGN Channels Bit Error Rate of Rayleigh Fading Wireless Channel Exact BER Expression for Rayleigh Fading Wireless Channel Deep Fade Analysis of Wireless Communication Principle of Diversity Multiple Antenna Diversity Maximal-Ratio Combining BER of Multiple Antenna Wireless Systems Approximate BER for Multiple Antenna Wireless System Examples for BER of Wireless Communication Deep Fade in Multi Antenna Systems Intuition for Deep Fade in Multi-Antenna System Definition of Diversity Order Max Delay Spread RMS Delay Spread Delay Spread and Inter Symbol Interference Coherence Bandwidth of Wireless Channel Mobility and Doppler Effect in Wireless Channels Imapact of Doppler Effect on Wireless Channel Introduction to Code Division Multiple Access (CDMA) Chip Time and Bandwidth Expansion in CDMA Code Generation for CDMA CDMA Codes: Properties of PN Sequences BER of CDMA Systems Analysis of Multi-user CDMA Multipath Diversity in CDMA Systems Near-Far Problem in CDMA Multiple Input Multiple Output (MIMO) Systems Examples of MIMO Systems MIMO Receivers BER Performance of ZF Receiver Transmit Beamforming in MISO Systems Alamouti Code and Space-Time Block Codes BER of Alamouti Coded System Singular Value Decomposition (SVD) SVD in MIMO Capacity of MIMO Wireless Systems SVD based MIMO Transmission Orthogonal Frequency Division Multiplexing (OFDM) Transmission in Multicarrier Systems FFT/IFFT Processing in OFDM Cyclic Prefix in OFDM Systems Schematic Represntation of OFDM Transmitter and Receiver BER Performance of OFDM Systems
117104117	Electronics & Communication Engineering	NOC:Probability and Random Variables/ Processes for Wireless Communications	Prof. Aditya K. Jagannatham	Video	IIT Kanpur	Select Gaussian Process Through LTI System Example: WGN Through RC Low Pass Fillter Not Started Special Random Processes Gaussian Process and White Noise AWGN Communication Channel Transmission of WSS Random Process Through LTI System PSD Application in Wireless Bandwidth Required for Signal Transmission WSS Example Narrowband Wireless Signal with Random Phase Power Spectral Density (PSD) for WSS Random Process Basics - Sample Space and Events Axioms of Probability Conditional Probability - Mary-PAM Example Independent Events - Mary-PAM Example Independent Events - Block Transmission Example Independent Events - Multiantenna Fading Example Bayes Theorem and Aposteriori Probabilities Maximum Aposteriori Probability (MAP) Receiver Random Variables, Probability Density Function (PDF) Application: Power of Fading Wireless Channel Mean, Variance of Random Variables Application: Average Delay and RMS Delay Spread of Wireless Channel Transformation of Random Variables and Rayleigh Fading Wireless Channel Gaussian Random Variable and Linear Transformation Special Case: IID Gaussian Random Variables Application: Array Processing and Array Gain with Uniform Linear Arrays Random Processes and Wide Sense Stationarity (WSS)
117104118	Electronics & Communication Engineering	NOC:Estimation for Wireless Communications - MIMO/ OFDM Cellular and Sensor Networks(Course sponsored by Aricent)	Prof. Aditya K. Jagannatham	Video	IIT Kanpur	Select Lecture 10 - Example – Wireless Fading Channel Estimation for Downlink Mobile Communication Lec 11 - Cramer Rao Bound (CRB) for Parameter Estimation Lec 12- Cramer Rao Bound CRB Example – Wireless Sensor Network Lec 13 - Vector Parameter Estimation – System Model for Multi Antenna Downlink Channel Estimation Lec 14 - Likelihood Function and Least Squares Cost Function for Vector Parameter Estimation Lec 15 - Least Squares Cost Function for Vector Parameter Estimation Vector Derivative Gradient Lecture 09 - Wireless Fading Channel Estimation – Mean and Variance of Pilot Training Based Maximum Likelihood Lecture 08 - Wireless Fading Channel Estimation – Pilot Training based Maximum Likelihood ML Estimate Lecture 07 - Wireless Fading Channel Estimation – Pilot Symbols and Likelihood Function Lecture 06 - Estimation of Complex Parameters – Symmetric Zero Mean Complex Gaussian Noise Lecture 05 - Reliability of the Maximum Likelihood (ML) Estimate – Number of Samples Required Lecture 04 - Properties of Maximum Likelihood (ML) Estimate – Variance and Spread Around Mean Lecture 02 - Likelihood Function and Maximum Likelihood (ML) Estimate Lecture 03 - Properties of Maximum Likelihood (ML) Estimate – Mean and Unbiasedness Lecture 01 - Basics - Sensor Network and Noisy Observation Model Lec 16- Least Squares Solution Maximum Likelihood ML Estimate Pseudo Inverse Lec 17- Properties of Least Squares Estimate – Mean Covariance and Distribution Lec 18 - Least Squares Multi Antenna Downlink Maximum Likelihood Channel Estimation Lec 19- Multiple Input Multiple Output MIMO Channel Estimation – Least Squares Maximum Likelihood ML Lec 20- Example – Least Squares Multiple Input Multiple Output MIMO Channel Estimation Lec 21 Channel Equalization and Inter Symbol Interference ISI Model Lec 22 Least Squares based Zero Forcing Channel Equalizer Lec 23 Example of ISI Channel and Least Squares based Zero Forcing Lec 24 Equalization and Approximation Error for Zero Forcing Channel Equalizer Lec 25 Example Equalization and Approximation Error for Zero Forcing Channel Equalizer Lec 26-Introduction to Orthogonal Frequency Division Multiplexing OFDM – Cyclic Prefix CP and Circular Convolution Lec 27- Introduction to Orthogonal Frequency Division Multiplexing OFDM – FFT at Receiver and Flat Fading Lec 28- Channel Estimation Across Each Subcarrier in Orthogonal Frequency Division Multiplexing OFDM Lec 29- Example Orthogonal Frequency Division Mulltiplexing OFDM – Transmission of Samples with Cyclic Prefix Lec 30- Example Orthogonal Frequency Division Mulltiplexing OFDM – FFT at Receiver and Channel Estimation Lec 31- Comb Type Pilot CTP Based Orthogonal Frequency Division Multiplexing OFDM Channel Estimation Lec 32- Comb Type Pilot CTP Based Orthogonal Frequency Division Multiplexing OFDM Channel Estimation Lec 33- Example Comb Type Pilot CTP Based Orthogonal Frequency Division Multiplexing OFDM Channel Lec 34 -Frequency Domain Equalization FDE for Inter Symbol Interference ISI Removal in Wireless System Lec 35-Example Frequency Domain Equalization FDE for Inter Symbol Interference ISI Removal in Wireless Channels Lec 36-Example Frequency Domain Equalization FDE for Inter Symbol Interference ISI Removal in Wireless Channels Lec 37-Introduction to Sequential Estimation – Application in Wireless Channel Estimation Lec 38-Sequential Estimation of Wireless Channel Coefficient – Estimate and Variance Update Equation Lec 39- Example Sequential Estimation of Wireless Channel Coefficient
117104120	Electronics & Communication Engineering	NOC:Error Control Coding: An Introduction to Convolutional Codes	Dr. Adrish Banerjee	Video	IIT Kanpur	Select Introduction to Convolutional Codes-II: State Diagram, Trellis Diagram Convolutional Codes: Classification, Realization Convolutional Codes:Distance Properties Decoding of Convolutional Codes-I: Viterbi Algorithm Decoding of Convolutional Codes-II: BCJR Algorithm Turbo Decoding Turbo Codes Problem Solving Session-I Problem Solving Session-II Performance Bounds for Convolutional Codes Introduction to Convolutional Codes-I: Encoding Introduction to Error Control Coding-III Introduction to Error Coding-II Introduction to Error Coding-I Convergence of Turbo Codes Applications of Convolutional Codes Problem Solving Sessions-III
117104121	Electronics & Communication Engineering	NOC:Error control coding: An introduction to linear block code	Dr. Adrish Banerjee	Video	IIT Kanpur	Select Problem Solving Session-I Decoding of Linear Block Codes Distance Properties of Linear Block Codes-I Distance Properties of Linear Block Codes-II Problem Solving Session Some Simple Linear Block Codes-I Some Simple Linear Block Codes-II: Reed Muller Codes Bounds on the Size of a Code Problem Solving Session-III Low Density Parity Check Codes Syndrome, Error Correction and Error Detection Introduction to Linear Block Codes, Generator Matrix and Parity Check Matrix Introduction to Error Control Coding-III Introduction to Error Control Coding-II Introduction to Error Control Coding-I Decoding of Low Density Parity Check Codes-I Decoding of Low Density Parity Check Codes-II: Belief Propagation Algorithm Applications of Linear Block Codes
117104126	Electronics & Communication Engineering	NOC:Bayesian/ MMSE Estimation for Wireless Communications –MIMO/ OFDM Cellular and Sensor Networks	Prof. Aditya K. Jagannatham	Video	IIT Kanpur	Select Linear Minimum Mean Squared Error LMMSE Estimate for Multi Antenna Downlink Wireless Channel-Part II Linear Minimum Mean Squared Error LMMSE Estimate for Multi Antenna Downlink Wireless Channel Vector Parameter Estimation – System Model for Multi-Antenna Downlink Channel Estimation Example of Linear Minimum Mean Squared Error LMMSE Estimation for Multi Antenna Downlink Wireless Channel Simplification and Example of Minimum Mean Squared Error MMSE Estimate for Wireless Fading Channel Reliability of Minimum Mean Squared Error MMSE Estimate – Part I Reliability of Minimum Mean Squared Error MMSE Estimate – Part II Minimum Mean Squared Error MMSE for Wireless Sensor Network WSN – Derivation and Example Derivation of Minimum Mean Squared Error (MMSE) Estimate for Gaussian Parameter – Non-Zero Mean and Vector Parameter/ Observation Minimum Mean Squared Error MMSE Estimation Application – Wireless Sensor Network Simplification and Example of Minimum Mean Squared Error MMSE Estimate for Wireless Sensor Networks Linear Minimum Mean Squared Error LMMSE Estimate Derivation – Part II Minimum Mean Squared Error MMSE for Wireless Fading Channel Estimation – Derivation Minimum Mean Squared Error (MMSE) for Wireless Fading Channel Estimation – Example and Properties of Complex Channel Coefficient Estimate Linear Minimum Mean Squared Error LMMSE Estimate Derivation – Part I Derivation and Example of Error Covariance of Multi Antenna LMMSE Channel Estimation System Model for Multiple Input Multiple Output MIMO Downlink Wireless Channel Estimation Channel/ Noise Statistics for Multiple-Input Multiple-Output (MIMO) Downlink Wireless Channel Estimation Minimum Mean Squared Error MMSE Estimation Application – Wireless Fading Channel Estimation Derivation of Minimum Mean Squared Error MMSE Estimate for Gaussian Parameter – Part II Derivation of Minimum Mean Squared Error MMSE Estimate for Gaussian Parameter – Part I Optimal Bayesian Minimum Mean Squared Error (MMSE) Estimate LMMSE/ MMSE Estimation for Multiple-Input Multiple-Output(MIMO) Downlink Wireless Channel Estimation Basics – Introduction to Bayesian Minimum Mean Squared Error Example of LMMSE/ MMSE Estimation for Multiple-Input Multiple-Output (MIMO) Downlink Wireless Channel Estimation Introduction and system model for equalization Linear Minimum Mean Square Error (LMMSE) Channel Equalization Error for LMMSE Channel Equalizer and Example of LMMSE Channel Equalization Example of Linear Minimum Mean Square Error (LMMSE) Channel Equalization Introduction and system model for OFDM System model for OFDMl, IFFT/ FFT Operations LMMSE Estimation for OFDM Estimate and Error variance of LMMSE Estimate Example of OFDM Example of LMMSE estimate and Error variance for OFDM
117104127	Electronics & Communication Engineering	NOC:Optical communications	Dr. Pradeep Kumar K	Video	IIT Kanpur	Select Detection of light(contd.) Detection of light Passive WDM components-II Passive WDM components-I System Design-I Wrapping up fiber parameters Dispersion in Fibers(Contd.) Modes in Optical fiber-II Response time & Noise in Detectors Noise in photodiodes-I Edit Lesson Noise in photodiodes-II Light sources-I Light sources-II Edit Lesson Semiconductor laser diodes Optical communication:-Pulse shape & BW Advantage of coherent receiver Power spectral density(contd.) Noise in optical amplifiers (contd.) Noise in optical amplifiers Optical amplifiers-II Optical amplifiers-I Dispersion induced limitations Review of EM Theory Reflection of Waves Optical fiber-I Optical fiber-II Modes in Optical fiber-I ASE induced limitations Determining BER in OOK system BER determination Optical receivers-I Digital Modulation-III Review of Signals and Representations -IV Digital Modulation-II (contd.) Digital Modulation-II Eye diagram & Higher modulation techniques Edit Lesson Optical OFDM Propagation of Electromagnetic wave Optical receivers-II Optical Modulator: Physical Structure Review of Signals and Representations -I Optical Transmitter-I(continued) Optical Transmitter-II Optical Transmitter-II(continued) Intensity modulation Review of Signals and Representations -II Digital Modulation-I Review of Signals and Representations -III Optical Transmitter-I Higher modulation techniques (contd.) Power spectral density Dispersion in Fibers Modes in Optical fiber-I(contd.) Overview of Fiber-optic communications
117104128	Electronics & Communication Engineering	NOC:Digital Switching - I	Prof. Yatindra N Singh	Video	IIT Kanpur	Select Packet Switching Buffering strategies Example of wide -sense non-blocking switch Wide-sense non blocking network Cantor network Paull's matrix for rearrangeabbly non blocking networks Slepian Duguid theorem, Paull's theorem Strictly sense non blocking multicasting switch f-way multicasting TST switch, Strictly Non-blocking network, Rearrangeably non-blocking network Time switch and Clos network Karnaugh's approximation Time switch Blocking probability of crossbar switches Introduction to Multistage Interconnection Networks Logic Circuit for Crosspoint Operation Crossbar Switching Strowger Automatic Exchange Output Queued Switch Input Queued Switch Banyan Network, Delta Network Shufflenet as Delta network Recursive construction; Crosspoint complexity for rearrangebly and strictly non-blocking networks Rearrangeably non blocking networks Paull's Matrix Lee's approximation Clos network Call congestion and time congestio Introduction to Telephony and Networks Performance analysis of crossbar and delta network Properties of Delta Network Buffered and Unbuffered Delta network Analysis of Buffered Delta Network -1 of 3 Analysis of Buffered Delta Network-2of 3 Analysis of Buffered Delta Network-3of 3
117104129	Electronics & Communication Engineering	NOC:An Introduction to Information Theory	Dr. Adrish Banerjee	Video	IIT Kanpur	Select Block to Variable Length Coding I : Prefix-free code Block to Variable Length Coding II : Bounds on Optimal Code Length Block to Variable Length Coding III : Huffman Coding Variable to block length coding The asymptotic equipartition property Block to block coding of DMS Problem solving session-II Universal Source Coding-I: Lempel-Ziv Algorithm-LZ77 Universal source coding-II: Lempel-Ziv Welch Algorithm (LZW) Coding of sources with memory Channel Capacity Joint typical sequences Noisy channel coding theorem Differential entropy Gaussian channel Parallel Gaussian channel Problem solving session-III Rate distortion theory Information Inequalities Measure of Information Problem solving session-I Introduction Blahut-Arimoto Algorithm Problem solving session-IV
117105075	Electronics & Communication Engineering	Adaptive Signal Processing	Prof. Mrityunjoy Chakraborty	Video	IIT Kharagpur	Select Introduction to Adaptive Filters Introduction to Stochastic Processes Stochastic Processes Correlation Structure FIR Wiener Filter (Real) Steepest Descent Technique LMS Algorithm Convergence Analysis Convergence Analysis (Mean Square) Convergence Analysis (Mean Square) Misadjustment and Excess MSE Misadjustment and Excess MSE Sign LMS Algorithm Block LMS Algorithm Fast Implementation of Block LMS Algorithm Fast Implementation of Block LMS Algorithm Vector Space Treatment to Random Variables Vector Space Treatment to Random Variables Orthogonalization and Orthogonal Projection Orthogonal Decomposition of Signal Subspaces Introduction to Linear Prediction Lattice Filter Lattice Recursions Lattice as Optimal Filter Linear Prediction and Autoregressive Modeling Gradient Adaptive Lattice Gradient Adaptive Lattice Introduction to Recursive Least Squares RLS Approach to Adaptive Filters RLS Adaptive Lattice RLS Lattice Recursions RLS Lattice Recursions RLS Lattice Algorithm RLS Using QR Decomposition Givens Rotation Givens Rotation and QR Decomposition Systolic Implementation Systolic Implementation Singular Value Decomposition Singular Value Decomposition Singular Value Decomposition
117105076	Electronics & Communication Engineering	Communication Networks and Switching	Prof. S.L. Maskara	Web	IIT Kharagpur	Select Communication Networks?An Introduction and Overview Circuit Switching Message and Packet Switching Connectionless And Connection Oriented Packet Switching Communication Process Communication Between Two Computers And The Layering Concept Osi Layers And Protocols Physical Layer Data link Layer Data Link Layer Continued ?. HDLC Network Layer Network Layer continued,X.25 Transport And Session Layers Application & Presentation Layers LAN Topologies, Access Mechanisms and Media Contention Based LANs Contention Based LANs Continued Token Passing LANs Distributed Queue Dual Bus ( DQDB ) Fibre Distributed Data Interface (FDDI) Internet and IPv4 IP addressing. ICMP IPv6 TCP UDP. protocol suite Routing I Routing II Routing III Space Switching Multistage Switching Time Multiplexed Space Switching and Time Switching Time and Space Switches Frame Relay ATM: Concepts and Header ATM: Virtual Path, Virtual Channel. ATM Adaptation Layer (AAL) ISDN: Data Rates, Access Channels Types ISDN: Reference Points, Services And Standards B-ISDN Synchronous Digital Hierarchy Network Security
117105077	Electronics & Communication Engineering	Digital Communication	Prof. R.V. Rajakumar	Web	IIT Kharagpur	Select Introduction to Digital Communications Signals and Sampling Theory Information Theoretic Approach to Digital Communications Coding for Discrete Sources Introduction to Random Variables Functions of Random Variable Some useful Distributions Stochastic Processes Introduction to Statistical Signal Processing Quantization and Preprocessing Pulse Code Modulation (PCM) Logarithmic Pulse Code Modulation (Log PCM) and Companding Differential Pulse Code Modulation (DPCM) Delta Modulation Orthogonality Representation of Signals Noise Response of Linear System to Random Processes Maximum Likelihood Detection and Correlation Receiver Structure Matched Filter Nyquist Filtering and Inter Symbol Interference Introduction to Carrier Modulation Amplitude Shift Keying (ASK) and Frequency Shift Keying (FSK)Modulations Binary Phase Shift Keying (BPSK) Modulation Quaternary Phase Shift Keying QPSK) and M-ary PSK Modulations Differential Encoding and Decoding Performance of BPSK and QPSK in AWGN channel Performance of binary FSK and M-ary PSK in AWGN channel Minimum Shift Keying (MSK) Modulation Orthogonal Frequency Division Multiplexing (OFDM) Carrier Synchronization Timing Synchronization Introduction to Error Control Coding Block Codes Convolutional codes Coded Modulation Schemes Turbo Codes Introduction to Spread Spectrum Modulation Code Acquisition and Tracking Spread Spectrum as a Multiple Access Techniques
117105078	Electronics & Communication Engineering	Digital Computer Organization	Prof. P.K. Biswas	Video	IIT Kharagpur	Select Introduction to Digital Computer Organization CPU Design-I CPU Design-II CPU Design Tirning and Control Micro programmed Control-I Micro programmed Control-II Pipeline Concept-I Pipeline Concept-II Pipeline Concept-III Pipeline CPU-I Pipeline CPU-II Pipeline CPU-III Memory Organization-I Memory Organization-II Memory Organization-III Memory Organization-IV Memory Organization-V Cache Memory Architecture Cache Memory Architecture RAM Architecture RAM Architecture DAM Architecture-1 DAM Architecture Buffer Cache Buffer Cache Secondary Storage Organization-I Secondary Storage Organization-II Secondary Storage Organization-III I/O Subsystem Organization Error Detection and Correction
117105079	Electronics & Communication Engineering	Digital Image Processing	Prof. P.K. Biswas	Video	IIT Kharagpur	Select Introduction Image Digitization I Image Digitization II Pixel Relationships Pixels Relationships II Basic Transformations Camera Model and Imaging Geometry Camera Calibration and Stereo Imaging Interpolation and Resampling Image Interpolation - II Image Interpolation - I Image Transformation - II Fourier Transformation - I Fourier Transformation - II Discrete Cosine Transform K-L Transform Image Enhancement Image Enhancement Image Enhancement Image Enhancement Image Enhancement Frequency Image Restoration - I Image Restoration - II Image Restoration -III Image Registration Colour Image Processing - I Colour Image Processing - II Colour Image Processing - III Image Segmentation - I Image Segmentation - II Image Segmentation - III Image Segmentation - IV Mathematical Morphology - I Mathematical Morphology - II Mathematical Morphology - III Mathematical Morphology - IV Object Representation and Description - I Object Representation and Description - II Object Representation and Description - III Object Recognition
117105080	Electronics & Communication Engineering	Digital Systems Design	Prof. D. Roychoudhury	Video	IIT Kharagpur	Select Introduction to Digital Systems Design Introduction Digital Logic - I Digital Logic - II Digital Logic - III Boolean Algebra Boolean Algebra Boolean Function Minimization Boolean Function Minimization Boolean Function Minimization Hazzard Covers by K - Map Combinational Circuit Design Design of ADDER Circuits Design of Subtractor Circuits Digital of Common Digital Elements Design of Complex Combinational Circuits Design of Combinational Circuits Combinational Logic Problem Design Combinational Logic Design Logic Design with PLA Synchronous Sequential Circuit Design Design of Sequential Modules Design of Registers and Counter Finite State Machine Design Finite State Machine Design and Optimization Programmable Logic Devices Programmable Logic Devices Programmable Logic Devices Design of Arithmetic Circuits Design of Arithmetic Circuits Design of Memory Circuits Algorithmic State Machines Chart Design of Computer Instruction Set and the CPU Design of Computer Instruction Set and the CPU Design of Computer Instruction Set and the CPU Design of Computer Instruction Set and the CPU Design of Computer Instruction Set and the CPU Design of Computer Instruction Set and the CPU Design of a Micro Programmed CPU Digital System Design Current State of the Art
117105081	Electronics & Communication Engineering	Digital Voice & Picture Communication	Prof. Somnath Sengupta	Video	IIT Kharagpur	Select Introduction Speech Production Model Speech Coding : Objectives and Requirements Quantizers for Speech Signal mew - Law and Optimum Quantizer Adaptive Quantizer Differential Quantization LDM and ADM Differential PCM and Adaptive Prediction Linear Prediction of Speech Computational Aspects of LPC parameters Cholesky Decomposition Lattice Formulation of LPC Coefficient Linear Predictive Synthesizer LPC Vocoder Introduction to Image and Video Coding Lossy Image Compression : DCT DCT Quantization and Limitations Theory of Wavelets Discrete Wavelet Transforms DWT on the Images and its Encoding Embedded Zero Tree Wavelet Encoding Video Coding : Basic Building Blocks Motion Estimate Techniques Fast Motion Estimation Techniques Video Coding Standards Advanced Coding Aspects Audio Coding: Basic Concepts Audio Coding AC - 3 AC -3 Decoder MPEG - 1 Audio Coding Introduction to VoIP VoIP Signaling : H.323 Protocol H.323 Call Controls and Enhancements Interworking with PSTN Limitations and Solution Multiplexing Schemes H.323:Multiplexing:Header Compression and BW ISDN Video Conferencing Video Conferencing : SIP Protocol 4G Multimedia Conferencing
117105082	Electronics & Communication Engineering	MEMS and Microsystems	Prof. Santiram Kal	Video	IIT Kharagpur	Select Introduction to MEMS & Microsystems Introduction to Microsensors Evaluation of MEMS, Microsensors, Market Survey Application of MEMS MEMS Materials MEMS Materials Properties MEMS Materials Properties (Contd.) Microelectronic Technology for MEMS - II Microelectronic Technology for MEMS - III Micromachining Technology for MEMS Micromachining Process Etch Stop Techniques and Microstructure Surface and Quartz Micromachining Fabrication of Micromachined Microstructure Microstereolithography MEMS Microsensors Thermal Micromachined Microsensors Mechanical MEMS Pressure and Flow Sensor Micromachined Flow Sensors MEMS Inertial Sensors Micromachined Microaccelerometers for MEMS MEMS Accelerometers for Avionics Temperature Drift and Damping Analysis Piezoresistive Accelerometer Technology MEMS Capacitive Accelerometer MEMS Capacitive Accelerometer Process MEMS Gyro Sensor MEMS for Space Application Polymer MEMS & Carbon Nano Tubes CNT Wafer Bonding & Packaging of MEMS Interface Electronics for MEMS MEMS for Biomedical Applications (Bio-MEMS)
117105083	Electronics & Communication Engineering	Multimedia processing	Prof. Somnath Sengupta	Web	IIT Kharagpur	Select Introduction to Multimedia Systems and Processing Image Compression Systems Lossless Compression: Huffman Coding Arithmetic and Lempel-Ziv Coding Other Coding Techniques Theory of Quantization Delta Modulation and DPCM Transform Coding & K-L Transforms Discrete Cosine Transforms Theory of Wavelets Multi-resolution Analysis: Theory of Subband Coding Multi-resolution Analysis: Discrete Wavelet Transforms Zerotree Approach SPIHT algorithm EBCOT Algorithm Still Image Compression Standards: JBIG and JPEG JPEG-2000 Architecture and Features JPEG-2000 Region of Interests Coding JPEG-2000? Error Resiliency Basic Building Blocks & Temporal Redundancy Block based motion estimation algorithms Other fast search motion estimation algorithms MPEG-1 standards MPEG-2 Standard MPEG-4 Standard H.261 andH.263 Standards H.264 standard Basic of Audio Coding Transform and Filter banks Polyphase filter implementation Format and encoding Psychoacoustic Models Basic definitions and requirements References Model and Specification Time stamping and pack architecture Packet architectures and audio-video interleaving Playback continuity Basics of content based image retrieval Video Content Representation Video Sequence Query Processing
117105084	Electronics & Communication Engineering	Neural Networks and Applications	Prof. Somnath Sengupta	Video	IIT Kharagpur	Select Introduction to Artificial Neural Networks Artificial Neuron Model and Linear Regression Gradient Descent Algorithm Nonlinear Activation Units and Learning Mechanisms Learning Mechanisms-Hebbian,Competitive,Boltzmann Associative memory Associative Memory Model Condition for Perfect Recall in Associative Memory Statistical Aspects of Learning V.C. Dimensions: Typical Examples Importance of V.C. Dimensions Structural Risk Minimization Single-Layer Perceptions Unconstrained Optimization: Gauss-Newton's Method Linear Least Squares Filters Least Mean Squares Algorithm Perceptron Convergence Theorem Bayes Classifier & Perceptron: An Analogy Bayes Classifier for Gaussian Distribution Back Propagation Algorithm Practical Consideration in Back Propagation Algorithm Solution of Non-Linearly Separable Problems Using MLP Heuristics For Back-Propagation Multi-Class Classification Using Multi-layered Perceptrons Radial Basis Function Networks: Cover's Theorem Radial Basis Function Networks: Separability & Interpolation Posed Surface Reconstruction Solution of Regularization Equation: Greens Function Use of Greens Function in Regularization Networks Regularization Networks and Generalized RBF Comparison Between MLP and RBF Learning Mechanisms in RBF Introduction to Principal Components and Analysis Dimensionality reduction Using PCA Hebbian-Based Principal Component Analysis Introduction to Self Organizing Maps Cooperative and Adaptive Processes in SOM Vector-Quantization Using SOM
117105085	Electronics & Communication Engineering	Probability and Random Processes	Prof. Mrityunjoy Chakraborty	Video	IIT Kharagpur	Select Introduction to the Theory of Probability Axioms of Probability Axioms of Probability (Contd.) Introduction to Random Variables Probability Distributions and Density Functions Conditional Distribution and Density Functions Function of a Random Variable Function of a Random Variable (Contd.) Mean and Variance of a Random Variable Moments Characteristic Function Two Random Variables Function of Two Random Variables Function of Two Random Variables (Contd.) Correlation Covariance and Related Innver Vector Space of Random Variables Joint Moments Joint Characteristic Functions Joint Conditional Densities Joint Conditional Densities (Contd.) Sequences of Random Variables Sequences of Random Variables (Contd.) Correlation Matrices and their Properties Correlation Matrices and their Properties Conditional Densities of Random Vectors Characteristic Functions and Normality Tchebycheff Inequality and Estimation of an Unknown Parameter Central Limit Theorem Introduction to Stochastic Process Stationary Processes Cyclostationary Processes System with Random Process at Input Ergodic Processes Introduction to Spectral Analysis Spectral Analysis Contd. Spectrum Estimation - Non Parametric Methods Spectrum Estimation - Parametric Methods Autoregressive Modeling and Linear Prediction Linear Mean Square Estimation - Wiener (FIR) Adaptive Filtering - LMS Algorithm
117105101	Electronics & Communication Engineering	Pattern Recognition and Application	Prof. P.K. Biswas	Video	IIT Kharagpur	Select Introduction Feature Extraction - I Feature Extraction - II Feature Extraction - III Bayes Decision Theory Bayes Decision Theory (Contd.) Normal Density and Discriminant Function Normal Density and Discriminant Function (Contd.) Bayes Decision Theory - Binary Features Maximum Likelihood Estimation Probability Density Estimation Probability Density Estimation (Contd.) Probability Density Estimation (Contd. ) Probability Density Estimation ( Contd.) Probability Density Estimation ( Contd. ) Dimensionality Problem Multiple Discriminant Analysis Multiple Discriminant Analysis (Tutorial) Multiple Discriminant Analysis (Tutorial ) Perceptron Criterion Perceptron Criterion (Contd.) MSE Criterion Linear Discriminator (Tutorial) Neural Networks for Pattern Recognition Neural Networks for Pattern Recognition (Contd.) Neural Networks for Pattern Recognition (Contd. ) RBF Neural Network RBF Neural Network (Contd.) Support Vector Machine Hyperbox Classifier Hyperbox Classifier (Contd.) Fuzzy Min Max Neural Network for Pattern Recognition Reflex Fuzzy Min Max Neural Network Unsupervised Learning - Clustering Clustering (Contd.) Clustering using minimal spanning tree Temporal Pattern recognition Hidden Markov Model Hidden Markov Model (Contd.) Hidden Markov Model (Contd. )
117105122	Electronics & Communication Engineering	NOC:Basic Tools of Microwave Engineering	Dr. Amitabha Bhattacharya	Video	IIT Kharagpur	Select Lecture 08 : Distributed Impedance Matching Design by Smith Chart Lecture 07: Lumped Element Based Impedance Matching Network Design by Smith Chart Lecture 12: Scattering Parameter : the Second Tool Lecture 10 : Tutorial 2 : Impedance Matching Network Design by Smith Chart Lecture 11: Voltage and Current at Microwave Frequency Lecture 09 : Broadband Impedance Matching Network Design Lecture 13: Properties of Scattering Parameter Lecture 14: Network Analyser Lecture 15: Tutorial 3: Problem Solving on Equivalent Voltage and Current in Waveguide and on scattering parameters Lecture 06 : Need of Impedance Matching at Microwave Frequency Lecture 05 : Problem Solving using Smith Chart Lecture 04 : Application of Smith Chart for finding unknown impedance in laboratory Lecture 03: Measurement of Unknown Impedance Lecture 01 : Challenges of Microwave Design Lecture 02 : Introduction to the 1st tool : Smith Chart Lecture 16 : Radiation between S-Parameters and Transmission Parameters Lecture 17 : Scattering Parameters of Coupler and Magic Tee Lecture 18 : Signal Flow Graph Lecture 19 : Understanding Network Analyser Calibration with the help of Signal Flow Graph Lecture 20 : Tutorial 4: Problem Solving Related to S-Parameters and Signal Flow Graph
117105130	Electronics & Communication Engineering	NOC:Basic Building Blocks of Microwave Engineering	Dr. Amitabha Bhattacharya	Video	IIT Kharagpur	Select Lecture 8: Circular Waveguide Lecture 6: Coaxial Line Lecture 7: Rectangular Waveguide Lecture 05: Losses Associated with Microwave Transmission Lecture 15: Microwave Attenuuators Lecture 9: Planar Transmission Line Lecture 10: Coaxial Connectors Lecture 12: 3 Port Microwave Power Divider/Combiner Part II Lecture 14: Microwave Resonator Lecture 16: Microwave Detector and Switching Diodes Lecture 17: Microwave Tubes : Part I Edit Lesson Lecture 18: Microwave Tubes : Part II and Amplifiers Lecture 11: 3 Port Microwave Power Divider/Combiner Part I Lecture 02: Mathematical Model of Modes Lecture 13: 4 Port Microwave Power Divider/Combiner Lecture 04: Mathematical Model of TE and TM Mode and Impedance Concept Lecture 03: Mathematical Model of TEM Mode Lecture 01: Concept of Mode Lecture 19: Microwave Solid State Diode Oscillator and Amplifier Lecture 20: Microwave Transistors
117105131	Electronics & Communication Engineering	NOC:Satellite Communication Systems	Prof. Kalyankumar Bandyopadhyay	Video	IIT Kharagpur	Select Lecture 40: Satellite Navigation – II Lecture 39: Satellite Navigation – I Lecture 38: Effect on Higher Layer – III Lecture 18: Link Budget – 8 Lecture 17: Link Budget – 7 Lecture 16: Link Budget – 6 Lecture 15: Link Budget – 5 Lecture 14: Link Budget – 4 Lecture 13: Link Budget – 3 Lecture 12: Link Budget – 2 Lecture 01 : Introduction Lecture 02 : Orbit – 1 Lecture 37: Effect on Higher Layer – II Lecture 36: Effect on Higher Layer – I Lecture 35: Synchronisation – II Lecture 34: Synchronisation – I Lecture 33: Nonlinearity III Lecture 32: Nonlinearity II Lecture 31: Nonlinearity I Lecture 30: Multiple Access – 5 Lecture 29: Multiple Access – 4 Lecture 28: Multiple Access – 3 Lecture 27: Multiple Access – 2 Lecture 26: Multiple Access – 1 Lecture 25: Ground Segment – 4 Lecture 24: Ground Segment – 3 Lecture 23: Ground Segment – 2 Lecture 22: Ground Segment – 1 Lecture 21: Propagation – 3 Lecture 20: Propagation – 2 Lecture 19: Propagation – 1 Lecture 11: Link Budget – 1 Lecture 10: Space Segment – 5 Lecture 09: Space Segment – 4 Lecture 08: Space Segment – 3 Lecture 07: Space Segment – 2 Lecture 06: Space Segment – 1 Lecture 05: Orbit – 4 Lecture 04: Orbit – 3 Lecture 03: Orbit – 2
117105132	Electronics & Communication Engineering	NOC:Fundamentals of MIMO Wireless Communication	Prof. Suvra Sekhar Das	Video	IIT Kharagpur	Select Lecture 39: Capacity of Random Channel Lecture 19: Expression of MIMO Channel Lecture 20: MIMO Channel Characteristics Lecture 21: Statistical Properties of H Lecture 22: Important Results from Linear Algebra Lecture 23: Spatial Diversity Lecture 24: Selection Combining Lecture 25: Maximal Ratio Combining Lecture 26: Problem of Error in MRC Lecture 27: Diversity Gain and Transmit MRC Lecture 28: Transmit Diversity without Channel known at Tx Lecture 29: MIMO Transmit Diversity - 1 Lecture 30: MIMO Diversity - 2 Lecture 31: Fundamentals of Information Theory - I Lecture 37: Capacity of Channel Known of Transmitter Lecture 18: Spatial Channel Characteristics - I Lecture 17: FSF-Coherence Bandwidth, Delay Doppeler Characteristics Lecture 16: Frequency Selective Fading-II Lecture 15: Frequency Selective Fading Lecture 14: Doppler Spectrum Lecture 10: Small Scale Propagation Envelope Distribution Lecture 09: Small Scale Propagation Frequency Flat Fading Lecture 38: More on MIMO Channel Capacity Lecture 07: Large Scale Propagation Models Path Loss and Shadowing Lecture 32: Fundamentals of Information Theory - II Lecture 33: Fundamentals of Information Theory - III Lecture 34: Fundamentals of Information Theory - IV Lecture 06: Large Scale Propagation Models Path Loss Lecture 05: Wireless Channel Models - I Lecture 03: Overview of MIMO Communication Systems Lecture 02: Elements of Wireless Communication System Lecture 35: Capacity of Deterministic MIMO Channels Lecture 13: Coherence Time Lecture 12: Small Scale Propagation Received Signal Correlation (Contd.) Lecture 11: Small Scale Propagation Received Signal Correlation Lecture 36: Capacity of Channel Unknown at Transmitter Lecture 08: Small Scale Propagation Multipath Model Lecture 04: Layered View of Transmitter and Receiver : Introduction to the Channel Lecture 01: Evolution of Wireless Communication Systems 1G - 5G Lecture 40: MIMO in Practice
117105133	Electronics & Communication Engineering	NOC:Audio System Engineering	Prof. S. Dasmandal	Video	IIT Kharagpur	Select Lecture 13: The Acoustic Environment Lecture 14: Room Acoustics - I Lecture 05 : Tutorial I Lecture 15: Room Acoustics - II Lecture 16 : Large Room Acoustics and Small Room Acoustics Lecture 17 : Large Room Acoustics and Small Room Acoustics (Contd.) Lecture 18: Auditorium Acoustics Lecture 19: Transduction - I Lecture 20: Transduction - II Lecture 11: Sound Transmission Lecture 12: Sound Transmission (Contd.) Lecture 02 : Fundamentals of Linear Vibrations Edit Lesson Lecture 10 : Perception at Sound Lecture 09: Spherical Waves Propagation Lecture 08: Acoustic Wave Equation (Contd.) Lecture 07: Acoustic Wave Equation (Contd.) Lecture 06: Acoustic Wave Equation Lecture 04 : Equivalent Electrical Circuits for Oscillation Lecture 03 : Damped Oscillation and Forced Oscillation Lecture 1: Introduction Lecture 21: Transduction - III Lecture 22: Microphone - I Lecture 23: Microphone Sensitivity Lecture 24: Loudspeaker
117105134	Electronics & Communication Engineering	NOC:Discrete Time Signal Processing	Prof. Mrityunjoy Chakraborty	Video	IIT Kharagpur	Select Lecture 33: Analog Filter Design Example Butterworth Lowpass Filter Lecture 13: Introduction to Z-transform Lecture 22: Decimation and DFT of Decimated Sequences Lecture 20: Graphically Interpretation of Circular Convolution Lecture 17:Introduction to DFT Lecture 16: Inverse z-transform Lecture 14: Properties of Z-transform Lecture 15: Properties of z-transform Lecture 32: Pole, Zero and Stability of of Analog Filters Lecture 23: Expension and Interpolation of Sequences Lecture 24: Factor-of-M Polyphase Decomposition of Sequences Lecture 25: Nobel Identifies Lecture 26: Efficient Decimator and Interpolator Structure Lecture 27: Linear Phase Filters Lecture 28: Properties of Linear Phase Filters Lecture 29: Structures for IIR Filters Lecture 30: Structures for FIR Filters Lecture 31: Analog LTI Systems, Fourier and Laplace Transforms Lecture 34: IIR Filter Design by Implus Invariance Method Lecture 37: FIR Filter Design by Window Lecture 35: Design Filter Design from Analog Proptotype Filters by s - z Transformations Lecture 36: Bilinear Transformation Lecture 11: Rational Systems Lecture 10: Nyquist Interpolation Formula Lecture 09: Relation between DTFT and Analog Fourier Transform Lecture 08: Dirac Comb and Sampling Analog Signals Lecture 38: FFT: Decimation in Time Lecture 39: Complexity Analysis of FFT Lecture 40: Bit Reversal and FFT Lecture 05: Graphical Evaluation of Discrete Convolutions Lecture 06: Discrete Time Fourier Transform Lecture 07: Properties of DTFT Lecture 04 : Properties of Discrete Convolution Causal and Stable Systems Lecture 03: Linear, Shift Invariant Systems Lecture 02: Discrete Time Signals and Systems Lecture 21: Zero Padding and Linear convolution Via DFT Lecture 19:Introduction to Interpretation of Circular Convolution Lecture 18: Properties of DFT Lecture 12: Properties of Rational Systems Lecture 01: Introduction
117105135	Electronics & Communication Engineering	NOC:Digital Image Processing	Prof. P.K. Biswas	Video	IIT Kharagpur	Select Lecture 12: Image Formation - II Lecture 11: Image Formation - I Lecture 10: Basic Transform Lecture 21: Image Transformation - 2 Lecture 20: Image Transformation - I Edit Lesson Lecture 18: Interpolation with examples - I Lecture 17 : Interpolation Techniques Lecture 16: Interpolation and Resampling Lecture 15: Stereo Imaging Model - II Lecture 14: Image Geometry - II Lecture 39 : Image Enhancement : Mask Processing Techniques - II Lecture 38 : Image Enhancement : Mask Processing Techniques - I Lecture 23: Basis Images Lecture 22: Separable Transformation Lecture 31: KL-transform-2 Lecture 25: Properties of FT Lecture 26 : FT Result Display - 2 Lecture 27: Rotation Invariance Property Lecture 28: DCT and Walsh Transform Lecture 29: Handmard Transformation Lecture 30 : Histogram Equalization and Specifications - I Lecture 33: Contrast Stretching Operation Lecture 34: Histogram Equalization and Specification - I Lecture 35: Histogram Equalization and Specification - II Lecture 36: Histogram Implementation - I Lecture 40 : Image Enhancement : Mask Processing Techniques - III Lecture 41: Frequency Domain Processing Techniques Lecture 42: Image Restoration Techniques - I Lecture 43: Image Restoration Techniques - II Lecture 44: Estimation of Degradation Model and Restoration Techniques - I Lecture 45: Estimation of Degradation Model and Restoration Techniques - II Lecture 46 : Other Restoration Techniques - I Lecture 47 : Other Restoration Techniques - II Lecture 49 : Image Registration - II Lecture 50 : Colour Image Processing : Colour Fundamentals Lecture 51: Colour Model Lecture 52 : Conversion of one color model to another - I Lecture 09: Application of Distance Measures Lecture 06: Quantizer Design Lecture 55 : Full color image processing Lecture 54 : Pseudo color image processing Lecture 53 : Conversion of one color model to another - II Lecture 56 : Different Approaches for Image Segmentation Lecture 02: Application of Digital Image Processing Lecture 03: Image Digitalization, Sampling Quantization and Display Lecture 04: Signal Reconstruction from Samples: Convolution Concept Lecture 05: Signal Reconstruction from Image Lecture 48 : Image Registration - I Lecture 37: Histogram Implementation - II Lecture 32: Image Enhancement: Point Processing Techniques Lecture 24: Fourier Transformation Lecture 19: Interpolation with Examples - II Lecture 13: Image Geometry - I Lecture 08: Relationship of Adjacency and Connected Components Labeling Lecture 07: Relationship between Pixels Lecture 01 : Introduction to Digital Image Processing Lecture 57 : Image Segmentation : Global Processing (Hough Transform) Lecture 58 : Region based Segmentation Operation. Thresholding Techniques Lecture 59 : Region Splitting and Merging Technique Edit Lesson
117105136	Electronics & Communication Engineering	NOC:Spread Spectrum Communications and Jamming	Prof. Debarati Sen	Video	IIT Kharagpur	Select Lecture 9: Spread Sequences and Waveforms Lecture 10: Generation Mechanism of ML Sequence Lecture 11: Properties of Spread Spectrum Sequences Lecture 12: Tutorial-2 Lecture 13: Power Spectral Density of ML Sequence Lecture 14: Walsh Hadamard Code and Properties Lecture 15: Generation Mechanism and Properties of OVSF and Barker Codes Lecture 69 : Interceptor Detectors Lecture 67 : LPI Communications Lecture 56 : Interference Handling by Smart Antenna Lecture 29: Rejection of Narrowband Interference Lecture 30 : Narrow Band Interference Cancellation by Transform Domain Processing Lecture 31: PN Code Acquisition Fundamentals Lecture 32: Performance Analysis of PN Code Acquisition System - Part I Lecture 68 : Radiometer Lecture 66 WCDMA and UMTS - Part II Lecture 65 : WCDMA and UMTS - Part I Lecture 64 : Tutorial - IX Lecture 63 : IS95 and CDMA - Part II Lecture 60 : Multiuser Detection - Part II Lecture 59 : Multiuser Detection - Part I Lecture 40 : Tutorial - V Lecture 41 : DSSS Tracking Lecture 42: FHSS Synchronization Method - I Lecture 43: FHSS Synchronization Method - II Lecture 44: FHSS Synchronization Method - III Lecture 45 : FHSS Tracking Lecture 46 : Tutorial - VI Lecture 47 : Concept of Fading for Wireless Communications Lecture 28: Long Nonlinear Sequence Generation Lecture 58 : Tutorial - VIII Lecture 57 : Multiuser Detection and Interference Cancellation Lecture 16: Generation Mechanism and Properties of Gold and Kasami Codes Lecture 7: Slow and Fast Frequency Hopping Lecture 62 : IS95 and CDMA - Part I Lecture 61 : MUD - Probability of Error Lecture 54 : Interference Handling Mechanism in CDMA Networks Lecture 52 : Tutorial - VII Lecture 49 : Rake Receiver Lecture 33: Performance Analysis of PN Code Acquisition System - Part II Lecture 8: Hybrid Spread Spectrum System and Time Hopped SSS Lecture 1: Introduction to Spread Spectrum Communication Lecture 53 : Introduction to CDMA Lecture 51 : Spread Spectrum Multiple Access Lecture 50 : Performance Analysis of Rake Receiver Lecture 48 : Diversity for Fading Channels Lecture 38: Active Search Code Acquisiton for FFH/MFSK Analysis Lecture 36: Rapid Acquisition Using Matched Filter - Part II Lecture 37: Active Search Acquisition for FFH/MFSK Signals Lecture 39: Detection Probability Analysis of Code Acquisition for FFH / MFSK Lecture 21: Despreading with Matched Filter Lecture 22: Noncoherent Systems Lecture 23: Tutorial - III Lecture 24 : Galois Field Mathematics Lecture 25: Galois Field Mathematics (Contd.) Lecture 26: Galois Field Mathematics (Contd.) Lecture 34: Tutorial - IV Lecture 2: Direct Sequence Spread Spectrum System Lecture 3: Performance Analysis of DSSS Lecture 4: Concept of Jamming Margin Lecture 5: Frequency Hopping Spread Spectrum System Lecture 35: Rapid Acquisition Using Matched Filter - Part I Lecture 55 : Interference Handling by Soft Handover Lecture 27: Polynomials over Binary Field Lecture 20: Performance Analysis of a Quaternary System Lecture 19: Performance Analysis in Presence of Gaussian Interference Lecture 18: Performance Analysis During Generation Tone Jamming Lecture 17: Performance Analysis of DSSS in Presence of Tone Jamming Lecture 6: Tutorial-1
117105137	Electronics & Communication Engineering	NOC:Digital VLSI Testing	Prof. Santanu Chattopadhyay	Video	IIT Kharagpur	Select Lecture 58:Memory Testing (Contd.) Lecture 60 : Memory Testing (Contd.) Lecture 6: DFT (Contd.) Lecture 7: DFT (Contd.) Lecture 56 : System/Network - On - Chip Test (Contd.) Lecture 55 : System/Network - On - Chip Test (Contd.) Lecture 8: DFT (Contd.) Lecture 9: DFT (Contd.) Lecture 10:DFT (Contd.) Lecture 11: Logic and Fault Simulation Lecture 12: Logic and Fault Simulation (Contd.) Lecture 13: Logic and Fault Simulation (Contd.) Lecture 14: Logic and Fault Simulation (Contd.) Lecture 15: Logic and Fault Simulation (Contd.) Lecture 16: Logic and Fault Simulation (Contd.) Lecture 17: Test Generation Lecture 18: Test Generation (Contd.) Lecture 59 : Memory Testing (Contd.) Lecture 53 : System/Network - On - Chip Test (Contd.) Lecture 19: Test Generation (Contd.) Lecture 20: Test Generation (Contd.) Lecture 21: Test Generation (Contd.) Lecture 22: Test Generation (Contd.) Lecture 23: Test Generation (Contd.) Lecture 24: Logic BIST Lecture 25: Logic BIST (Contd.) Lecture 26: Logic BIST (Contd.) Lecture 52 : System/Network - On - Chip Test (Contd.) Lecture 57 : Memory Testing Lecture 3: Introduction (Contd.) Lecture 54 : System/Network - On - Chip Test (Contd.) Lecture 48 : System/Network - On - Chip Test (Contd.) Lecture 34: Low Power Testing (Contd.) Lecture 51 : System/Network - On - Chip Test (Contd.) Lecture 49 : System/Network - On - Chip Test (Contd.) Lecture 50 : System/Network - On - Chip Test (Contd.) Lecture 47 : System/Network - On - Chip Test (Contd.) Lecture 46 : System/Network - On - Chip Test (Contd.) Lecture 45 : System/Network - On - Chip Test Lecture 44 : Boundary Scan (Contd.) Lecture 42 : Boundary Scan (Contd.) Lecture 41 : Boundary Scan (Contd.) Lecture 39 : Thermal Aware Testing (Contd.) Lecture 40 : Boundary Scan Lecture 35: Low Power Testing (Contd.) Lecture 36: Low Power Testing (Contd.) Lecture 37 : Thermal Aware Testing Lecture 38 : Thermal Aware Testing (Contd.) Lecture 28: Test Compression Lecture 33: Low Power Testing (Contd.) Lecture 5: DFT Lecture 2: Introduction (Contd.) Lecture 31: Test Compression (Contd.) Lecture 30: Test Compression (Contd.) Lecture 29: Test Compression (Contd.) Lecture 27: Logic BIST (Contd.) Lecture 32: Low Power Testing Lecture 4: Introduction (Contd.) Lecture 43 : Boundary Scan (Contd.) Lecture 1: Introduction
117105138	Electronics & Communication Engineering	NOC:Design Principles of RF and Microwave Filters and Amplifiers	Prof. Amitabha Bhattacharya	Video	IIT Kharagpur	Select Lecture 12 Stability Analysis of Microwave Amplifiers Lecture 13 Conditional stability enforcement for Microwave Amplifier Lecture 14 Amplifier design of maximising transducer gain Lecture 15 Amplifier design for specified gain Lecture 11 Gain Definitions of Microwave Amplifiers Lecture 16 : Amplifier design for specified noise performance Lecture 10: Tutorial an Insertion Loss based Microwave Filter design Lecture 08: Filter transformation Lecture 05: m-derived prototype filter design Lecture 06: Introduction to Insertion loss based Microwave Filter Design Lecture 09: Microwave Filter implementation Lecture 17 : Broadband Amplifier Design Lecture 04: Constant k prototype filter design Lecture 03: Symmetrical lossless network description for filter design Lecture 02: Concept of Image impedance and Propagation Constant Lecture 07 : Prototype low pass filter design Lecture 01:Image Impedance based RF filter design Lecture 18 : Quantitative Characterisation of Nonlinearity for Large Signal Amplifier Lecture 19 : Quantitative Characterisation of Nonlinearity for Large Signal Amplifier (Contd.) Lecture 20 : Measurement of Nonlinearity
117105139	Electronics & Communication Engineering	NOC:Millimeter Wave Technology	Prof. Mrinal Kanti Mandal	Video	IIT Kharagpur	Select Lecture 6: Guiding Structures Lecture 38 : Millimeter-Wave Systems (Contd.) Lecture 37: Millimeter-Wave Systems (Contd.) Lecture 36 : Millimeter-Wave Systems Lecture 33: Noise and Link Budget (Contd.) Lecture 27: Active Devices (Contd.) Lecture 23: Passive Components (Contd.) Lecture 18: Antennas at MM-Wave Frequencies(Contd.) Lecture 19: Antennas at MM-Wave Frequencies(Contd.) Lecture 20: Antennas at MM-WaveFrequencies (Contd.) Lecture 21: Passive Components Lecture 5: Introduction to Millimeter-Wave Technology (Contd.) Lecture 14: Guiding Structures (Contd.) Lecture 13: Guiding Structures (Contd.) Lecture 12: Guiding Structures (Contd.) Lecture 11: Guiding Structures (Contd.) Lecture 10: Guiding Structures (Contd.) Lecture 9: Guiding Structures (Contd.) Lecture 8: Guiding Structures (Contd.) Lecture 3: Introduction to Millimeter-Wave Technology (Contd.) Lecture 4: Introduction to Millimeter-Wave Technology (Contd.) Lecture 16: Antennas at MM-Wave Frequencies Lecture 7: Guiding Structures (Contd.) Lecture 22: Passive Components (Contd.) Lecture 15: Guiding Structures (Contd.) Lecture 2: Introduction to Millimeter-Wave Technology (Contd.) Lecture 35 : Noise and Link Budget (Contd.) Lecture 34 : Noise and Link Budget (Contd.) Lecture 32: Noise and Link Budget (Contd.) Lecture 31 : Noise and Link Budget Lecture 30: Active Devices (Contd.) Lecture 29: Active Devices (Contd.) Lecture 28: Active Devices (Contd.) Lecture 26: Active Devices Lecture 25: Passive Components (Contd.) Lecture 24: Passive Components (Contd.) Lecture 17: Antennas at MM-Wave Frequencies(Contd.) Lecture 1: Introduction to Millimeter-Wave Technology Lecture 39 : Millimeter-Wave Systems (Contd.) Lecture 40 : Millimeter-Wave Systems (Contd.)
117105140	Electronics & Communication Engineering	NOC:Power system analysis	Prof. Debapriya Das	Video	IIT Kharagpur	Select Lecture 2 : Structure of Power Systems and Few other Aspects - II Lecture 3: Structure of Power Systems and Few other Aspects - III Lecture 28 : Load flow studies(Contd.) Lecture 29 : Load flow studies(Contd.) Lecture 30 : Load flow studies(Contd.) Lecture 31: Lecture 32: Lecture 33: Lecture 34: Lecture 26 : Load flow studies Lecture 27 : Load flow studies(Contd.) Lecture 23 : Characteristic and performance of transmission lines(Contd.) Lecture 24 : Characteristic and performance of transmission lines(Contd.) Lecture 25 : Characteristic and performance of transmission lines(Contd.) Lecture 20: Power System Componets and per-unit system(Contd.) Lecture 21 : Characteristic and performance of transmission lines Lecture 17: Power System Componets and per-unit system(Contd.) Lecture 18: Power System Components and per-unit system(Contd.) Lecture 13: Capacitance of Transmisson Lines (Contd.) Lecture 14: Capacitance of Transmisson Lines (Contd.) Lecture 15: Power System Componets and per-unit system Lecture 11: Capacitance of Transmisson Lines Lecture 12: Capacitance of Transmisson Lines (Contd.) Lecture 16: Power System Components and per-unit system(Contd.) Lecture 9 : Resistance and Inductance (Contd.) Lecture 6 : Resistance and Inductance (Contd.) Lecture 5 : Resistance and Inductance (Contd.) Lecture 4 : Resistance and Inductance Lecture 1 : Structure of Power Systems and Few other Aspects - I Lecture 35: Lecture 19: Power System Componets and per-unit system(Contd.) Lecture 7 : Resistance and Inductance (Contd.) Lecture 8 : Resistance and Inductance (Contd.) Lecture 22 : Characteristic and performance of transmission lines(Contd.) Lecture 10 : Resistance and Inductance (Contd.) Lecture 55: Power system stability Lecture 54: Symmetrical components (Contd.) Lecture 53: Symmetrical components (Contd.) Lecture 52: Symmetrical components (Contd.) Lecture 51: Symmetrical components (Contd.) Lecture 46 : Three phase fault studies (Contd.) Lecture 47 : Three phase fault studies (Contd.) Lecture 48 : Three phase fault studies (Contd.) Lecture 49 : Symmetrical components Lecture 50 : Symmetrical components (Contd.) Lecture 45 : Three phase fault studies Lecture 44 : Optimal system operation (Contd.) Lecture 43 : Optimal system operation (Contd.) Lecture 42 : Optimal system operation (Contd.) Lecture 41 : Optimal system operation (Contd.) Lecture 40 : Optimal system operation (Contd.) Lecture 39 : Optimal system operation (Contd.) Lecture 38 : Optimal system operation (Contd.) Lecture 37 : Optimal system operation Lecture 36 : Load flow studies (Contd.) Lecture 56 : Power system stability (Contd.) Lecture 56 : Power system stability (Contd.) Lecture 56 : Power system stability (Contd.) Lecture 57 : Power system stability (Contd.) Lecture 57 : Power system stability (Contd.) Lecture 57 : Power system stability (Contd.) Lecture 58 : Power system stability (Contd.) Lecture 58 : Power system stability (Contd.) Lecture 58 : Power system stability (Contd.) Lecture 59 : Power system stability (Contd.) Lecture 59 : Power system stability (Contd.) Lecture 59 : Power system stability (Contd.) Lecture 60 : Power system stability (Contd.) Lecture 60 : Power system stability (Contd.) Lecture 60 : Power system stability (Contd.)
117105143	Electronics & Communication Engineering	NOC:Analog communication	Prof. Goutam Das	Video	IIT Kharagpur	Select Lecture 37 : Probability Theory (Contd.) Lecture 36 : Probability Theory (Contd.) Lecture 35 : Probability Theory (Contd.) Lecture 32 : Probability Theory (Contd.) Lecture 28 : PLL (Contd.) and LTI Lecture 28 : PLL (Contd.) and LTI Lecture 29: Dispersion Lecture 29: Dispersion Lecture 12 : Energy Spectral Density Lecture 13 : Power Spectral Density Lecture 18 : Amplitude Modulation (Contd.) Lecture 19 : SSB - SC Lecture 20 : SSB - SC (Contd.) Lecture 21 : VSB-SC Lecture 22 : VSB-SC (Contd.) Lecture 15 : Amplitude Modulation Lecture 16 : Amplitude Modulation (Contd.) Lecture 17 : Amplitude Modulation (Contd.) Lecture 25 : PLL Lecture 25 : PLL Lecture 26 : PLL (Contd.) Lecture 26 : PLL (Contd.) Lecture 24 : Comparison of Different Modulation Technique Lecture 8 : Fourier Transform Lecture 9 : Fourier Transform (Contd.) Lecture 10 : Fourier Transform (Contd.) Lecture 11 : Fourier Transform (Contd.) Lecture 1 : Fourier Series Lecture 2: Fourier Series (Contd.) Lecture 3 : Fourier Series (Contd.) Lecture 4 : Fourier Series (Contd.) Lecture 5 : Fourier Series (Contd.) Lecture 6 : Fourier Series (Contd.) Lecture 23 : Effect of Carrier Synchronization Lecture 14 : PSD of Random Signal Lecture 31 : Probability Theory Lecture 7 : Fourier Series (Contd.) Lecture 55: FM Noise Analysis (Contd.) Lecture 55: FM Noise Analysis (Contd.) Lecture 54: FM Noise Analysis (Contd.) Lecture 54: FM Noise Analysis (Contd.) Lecture 53: FM Noise Analysis Lecture 53: FM Noise Analysis Lecture 47 : Frequency Modulation Lecture 48 : Frequency Modulation (Contd.) Lecture 49 : Frequency Modulation (Contd.) Lecture 50 : Frequency Modulation (Contd.) Lecture 51 : Frequency Modulation (Contd.) Lecture 52 : Frequency Modulation (Contd.) Lecture 46 : Noise Analysis - SSB-SC Lecture 45 : Noise Analysis - AM Lecture 44 : Noise Analysis - DSB-SC Lecture 43 : Random Process (Contd.) Lecture 42 : Random Process (Contd.) Lecture 41 : Random Process (Contd.) Lecture 40 : Random Process (Contd.) Lecture 39 : Random Process (Contd.) Lecture 38 : Random Process Lecture 33 : Probability Theory (Contd.) Lecture 34 : Probability Theory (Contd.) Lecture 30 : Channel Nonlinearities and Multipath Effects Lecture 30 : Channel Nonlinearities and Multipath Effects Lecture 27 : PLL (Contd.) Lecture 27 : PLL (Contd.) Lecture 56 : Sampling Theorem Lecture 56 : Sampling Theorem Lecture 56 : Sampling Theorem Lecture 56 : Sampling Theorem Lecture 57 : Sampling Theorem (Contd.) Lecture 57 : Sampling Theorem (Contd.) Lecture 57 : Sampling Theorem (Contd.) Lecture 57 : Sampling Theorem (Contd.) Lecture 58 : FDM Vs TDM Lecture 58 : FDM Vs TDM Lecture 58 : FDM Vs TDM Lecture 58 : FDM Vs TDM Lecture 59 : Flat Top Vs Natural Sampling Lecture 59 : Flat Top Vs Natural Sampling Lecture 59 : Flat Top Vs Natural Sampling Lecture 59 : Flat Top Vs Natural Sampling Lecture 60 : Pulse Coded Modulation Lecture 60 : Pulse Coded Modulation Lecture 60 : Pulse Coded Modulation Lecture 60 : Pulse Coded Modulation
117105144	Electronics & Communication Engineering	NOC:Modern digital communication techniques	Prof. Suvra Sekhar Das	Video	IIT Kharagpur	Select Lecture 35 : With Memory Modulation (Contd.) Lecture 32 : Memoryless Modulation (Contd.) Lecture 33 : With Memory Modulation Lecture 34 : With Memory Modulation (Contd.) Lecture 30 : Memoryless Modulation (Contd.) Lecture 31 : Memoryless Modulation (Contd.) Lecture 28 : Memoryless Modulation (Contd.) Lecture 29 : Memoryless Modulation (Contd.) Lecture 27 : Memoryless Modulation (Contd.) Lecture 25 : Memoryless Modulation (Contd.) Lecture 23 : Characterization of Signals and Systems (Contd.) Lecture 24 : Memoryless Modulation Lecture 18 : Characterization of Signals and Systems (Contd.) Lecture 19 : Characterization of Signals and Systems (Contd.) Lecture 20 : Characterization of Signals and Systems (Contd.) Lecture 21 : Characterization of Signals and Systems (Contd.) Lecture 15 : Analog to Digital Conversion Lecture 14 : Source Coding (Contd.) Lecture 7 : Source Coding (Contd.) Lecture 13 : Source Coding (Contd.) Lecture 10 : Source Coding (Contd.) Lecture 8 : Source Coding (Contd.) Lecture 6 : Source Coding Lecture 2 : Introduction of Digital Communication System (Contd.) Lecture 1 : Introduction of Digital Communication System Lecture 26 : Memoryless Modulation (Contd.) Lecture 17 : Characterization of Signals and Systems Lecture 11 : Source Coding (Contd.) Lecture 22 : Characterization of Signals and Systems (Contd.) Lecture 4 : Introduction of Digital Communication System (Contd.) Lecture 12 : Source Coding (Contd.) Lecture 3 : Introduction of Digital Communication System (Contd.) Lecture 9 : Source Coding (Contd.) Lecture 55: Channel Estimation and Equalization (Contd.) Lecture 55: Channel Estimation and Equalization (Contd.) Lecture 54: Channel Estimation and Equalization (Contd.) Lecture 54: Channel Estimation and Equalization (Contd.) Lecture 53: Channel Estimation and Equalization Lecture 53: Channel Estimation and Equalization Lecture 52: Performance of Digital Modulation Techniques (Contd.) Lecture 52: Performance of Digital Modulation Techniques (Contd.) Lecture 51: Performance of Digital Modulation Techniques (Contd.) Lecture 51: Performance of Digital Modulation Techniques (Contd.) Lecture 46 : Performance of Digital Modulation Techniques Lecture 47 : Performance of Digital Modulation Techniques (Contd.) Lecture 48 : Performance of Digital Modulation Techniques (Contd.) Lecture 49 : Performance of Digital Modulation Techniques (Contd.) Lecture 50: Performance of Digital Modulation Techniques (Contd.) Lecture 45 : Optimum Receivers for AWGN (Contd.) Lecture 44 : Optimum Receivers for AWGN (Contd.) Lecture 43 : Optimum Receivers for AWGN (Contd.) Lecture 42 : Optimum Receivers for AWGN (Contd.) Lecture 41 : Optimum Receivers for AWGN (Contd.) Lecture 40 : Optimum Receivers for AWGN Lecture 39 : With Memory Modulation (Contd.) Lecture 38 : With Memory Modulation (Contd.) Lecture 37 : With Memory Modulation (Contd.) Lecture 36 : With Memory Modulation (Contd.) Lecture 16 : Analog to Digital Conversion (Contd.) Lecture 5 : Introduction of Digital Communication System (Contd.) Lecture 56 : Channel Estimation and Equalization (Contd.) Lecture 56 : Channel Estimation and Equalization (Contd.) Lecture 56 : Channel Estimation and Equalization (Contd.) Lecture 56 : Channel Estimation and Equalization (Contd.) Lecture 57 : Synchronization Techniques Lecture 57 : Synchronization Techniques Lecture 57 : Synchronization Techniques Lecture 57 : Synchronization Techniques Lecture 58 : Synchronization Techniques (Contd.) Lecture 58 : Synchronization Techniques (Contd.) Lecture 58 : Synchronization Techniques (Contd.) Lecture 58 : Synchronization Techniques (Contd.) Lecture 59 : Synchronization Techniques (Contd.) Lecture 59 : Synchronization Techniques (Contd.) Lecture 59 : Synchronization Techniques (Contd.) Lecture 59 : Synchronization Techniques (Contd.) Lecture 60 : Synchronization Techniques (Contd.) Lecture 60 : Synchronization Techniques (Contd.) Lecture 60 : Synchronization Techniques (Contd.) Lecture 60 : Synchronization Techniques (Contd.)
117105145	Electronics & Communication Engineering	NOC:Digital speech processing	Prof. Shyamal Kumar Das Mandal	Video	IIT Kharagpur	Select Lecture 36: Frequency Domain Fundamental Frequency Detection Algorithms Lecture 35: Fundamental Frequency (F0) Detection of speech signal Lecture 34: MFCC features vector Lecture 33: Mel Frequency Cepstral Coefficients Lecture 32: Cepstral Transform Coefficients (CC) Parameters extraction Lecture 31: Segmental and Supra-segmental features of speech signal Lecture 1: Lecture 2: Lecture 3: Lecture 4: Lecture 5: Lecture 6: Lecture 7: Lecture 8: Lecture 9 : Lecture 10 : Lecture 26 : Lecture 26 : Lecture 27 : Lecture 27 : Lecture 28 : Lecture 28 : Lecture 29 : Lecture 29 : Lecture 30 : Lecture 30 : Lecture 24 : Lattice Formulations of Linear Prediction Lecture 25 : Lattice Formulations of Linear Prediction ( Contd.) Lecture 21 : Introduction to Liner Prediction Lecture 22 : Autocorrelation Method of LPC analysis Lecture 23 : Autocorrelation Method of LPC analysis ( Contd.) Lecture 20: Lecture 19: Time Domain Methods in Speech Processing Lecture 18: Lecture 17: Lecture 16: Human Auditory System Lecture 14: Lecture 15 : Lecture 13: Lecture 11: Lecture 12: Lecture 37 Text to Speech Synthesis Lecture 37 Text to Speech Synthesis Lecture 38 Text to Speech Synthesis ( Contd.) Lecture 38 Text to Speech Synthesis ( Contd.) Lecture 39 Automatic Speech Recognition Lecture 39 Automatic Speech Recognition Lecture 40 Statistical Modeling of Automatic Speech Recognition Lecture 40 Statistical Modeling of Automatic Speech Recognition Lecture 41 Speech based Technology Development for e-learning Lecture 41 Speech based Technology Development for e-learning Lecture 42 : Prosody Modeling Lecture 43 : Fundamental frequency countur modeling Lecture 44 : Fundamental frequency contour modeling (Contd.)
117105147	Electronics & Communication Engineering	NOC:Analog Circuits and Systems through SPICE Simulation	Prof. Mrigank Sharad	Video	IIT Kharagpur	Select Lecture 20 : Lecture 35: Lecture 36: Lecture 32: Lecture 33: Lecture 29 : Lecture 30 : Lecture 27 : Lecture 26: Lecture 21: Lecture 22: Lecture 23: Lecture 24: Lecture 16 : Lecture 17 : Lecture 12: Lecture 13 : Lecture 14 : Lecture 11: Lecture 9: Basic Analog Design Part III (Contd.) Lecture 8: Basic Analog Design Part III (Contd.) Lecture 5: Basic Analog Design Part III Lecture 4: Basic Analog Design Part II (Contd.) Lecture 2: Basic Analog Design Part I (Contd.) Lecture 1 : Basic Analog Design Part I Lecture 31 : Lecture 18 : Lecture 15 : Lecture 10 : Basic Analog Design Part III (Contd.) Lecture 6: Basic Analog Design Part III (Contd.) Lecture 19 : Lecture 34: Lecture 28 : Lecture 25: Lecture 7: Basic Analog Design Part III (Contd.) Lecture 3: Basic Analog Design Part II Lecture 45 Lecture 44 Lecture 43 Lecture 42 : Lecture 41 : Lecture 40 : Lecture 39 : Lecture 38 : Lecture 37 : Lecture 46 : Lecture 47 : Lecture 48 : Lecture 49 : Lecture 50 : Lecture 51 : Lecture 52 : Lecture 53 : Lecture 54 : Lecture 55: Lecture 56 : Lecture 57 : Lecture 58 :
117106030	Electronics & Communication Engineering	Analog IC Design	Dr. Nagendra Krishnapura	Video	IIT Madras	Select Course introduction; Negative feedback control Negative feedback amplifier Step response, sinusoidal steady state response Loop gain and unity loop gain frequency; Opamp Opamp realization using controlled sources; Delay in the loop Negative feedback amplifier with ideal delay-small delays Negative feedback amplifier with ideal delay-large delays Negative feedback amplifier with parasitic poles and zeros Negative feedback amplifier with parasitic poles and zeros; Nyquist criterion Nyquist criterion; Phase margin Phase margin Single stage opamp realization Two stage miller compensated opamp Two stage miller compensated opamp Two and three stage miller compensated opamps; Feedforward compensated opamp Feedforward compensated opamp Feedforward compensated opamp Feedforward compensated opamp; typical opamp data sheet Opamp offset and CMRR; Transimpedance amplifier using an opamp Components available in a CMOS process MOS transistors-basics MOS transistors-parasitics, mismatch MOS transistors-mismatch, speed Noise in resistors Noise in MOS transistors; Input and output referred noise Noise scaling; Basic amplifier stages-Common source, common gate Basic amplifier stages-Common drain; Frequency response of amplifiers Common source amplifier frequency response; Differential amplifier Differential and common mode half circuits; Differential pair with active load Differential pair with current mirror load Single stage opamp characteristics Opamp with single and dual supplies; Single stage opamp tradeoffs Telescopic cascode opamp Telescopic cascode opamp; Folded cascode opamp Folded cascode opamp Two stage opamp Two stage opamp; Three stage and triple cascode opamps Common mode rejection ratio; Example Fully differential circuits Fully differential single stage opamp Common mode feedback Fully differential single stage opamp Fully differential two stage opamp; Fully differential versus pseudo-differential Circuit simulators and analyses Phase locked loop as frequency multiplier Phase domain model Type I PLL transfer function and reference feedthrough Type II PLL Type II PLL transfer functions; Implementation Type II PLL-extra poles; Random noise in a PLL Oscillator phase noise PLL phase noise; LC and ring Oscillators Generating PTAT and constant MOS gm bias currents Reducing supply sensitivity; Bandgap voltage reference Fractional bandgap reference; Low dropout regulators Low dropout regulators; Continuous-time active filters Continuous-time active filters Continuous-time active filters Discrete-time active filters Transistor sizing in practice; Course summary
117106031	Electronics & Communication Engineering	Coding Theory	Dr. Andrew Thangaraj	Video	IIT Madras	Select Introduction to Linear Block Codes Properties of Linear Block Codes Dual of Linear Block Codes Minimum Distance of Codes Operations on Codes Bounds on Code Parameters Optimal Decoders Syndrome Decoder, Basics of Finite Fields Constructions of Finite Fields Computations in Finite Fields Codes over Finite Fields, Minimal Polynomials BCH Codes BCH and RS Codes I BCH and RS Codes II Decoding BCH Codes Decoding RS Codes Coded Modulation and Soft Decision Decoding Optimal Decoders for BPSK and AWGN Bitwise Map Decoder for BPSK over AWGN Bitwise Map Decoder from the Dual Code Simulating Coded Modulation Union Bound, Introduction to LDPC Codes LDPC Codes Message Passing, Density Evolution Analysis Thresholds of LDPC Codes Irregular LDPC Codes Optimized Irregular LDPC Codes, Soft Message Passing Decoders Density Evolution for Soft Message Passing Decoding of LDPC Codes LDPC Codes in Practice Introduction to Convolutional Codes Viterbi Decoding of Convolutional Codes Union Bound, Recursive Convolutional Encoders Convolutional Codes in Practice BCJR Decoder BCJR & Max-Log-MAP Decoder, Introduction to Turbo Codes Turbo Decoder Turbo Codes in Practice Modern Codes
117106033	Electronics & Communication Engineering	Semiconductor Device Modeling	Prof. S. Karmalkar	Video	IIT Madras	Select Lecture 1 Lecture 2 Lecture 3 Lecture 4 Lecture 5 Lecture 6 Lecture 7 Lecture 8 Lecture 9 Lecture 10 Lecture 11 Lecture 12 Lecture 13 Lecture 14 Lecture 15 Lecture 16 Lecture 17 Lecture 18 Lecture 19 Lecture 20 Lecture 21 Lecture 22 Lecture 23 Lecture 24 Lecture 25 Lecture 26 Lecture 27 Lecture 28 Lecture 29 Lecture 30 Lecture 31 Lecture 32 Lecture 33 Lecture 34 Lecture 35 Lecture 36 Lecture 37 Lecture 38 Lecture 39 Lecture 40 Lecture 41 Lecture 42 Lecture 43 Lecture 44 Lecture 45 Lecture 46
117106034	Electronics & Communication Engineering	VLSI Data Conversion Circuits	Dr. Shanthi Pavan	Video	IIT Madras	Select Introduction to Data Conversion Sampling-1 Sampling-2 Nonidealities in Samples Noise due to Sampling Distortion in a Sampling Switch Gate Boosted Switches-1 Gate Boosted Switches-2 Charge Injection S/H Characterization-1 S/H Characterization-2 FFTs and Leakage Spectral Windows-1 Spectral Windows-2 ADC/DAC Definition Quantization Noise-1 Quantization Noise-2 Over Sampling and Noise Shaping Delta-Sigma Modulation-1 Delta-Sigma Modulation-2 Linearized Analysis Stability of Delta Sigma Modulators High Order DSMs NTF Design and Tradeoffs Single bit Modulators Loop Filter Architectures Continous-time Delta Sigma Modulation Implicit Antialiasing Modulators with NRZ and Impulsive DACs High Order CTDSMs CTDM Design Excess Loop Delay (ELD) ELD Compensation Effect of Clock Jitter on CTDSMs-1 Effect of Clock Jitter on CTDSMs-2 Dynamic Range Scaling Simulation of CTDSMs Integrator Design-1 Integrator Design-2 Flash ADC Design Latches and Metastability Offset in a Latch-1 Offset in a Latch-2 Auto Zeroing Auto Zeroing-2 Auto Zeroing-3 Auto Zeroing in flash ADCs Flash ADCs Case Study Flash ADC Case Study Flash ADC in a Delta Sigma Loop DAC Basics Binary and Themometer DACs Segmented DACs Optimal DAC Segmentation DAC Nonlinearities Current Steering DACs-1 Current Steering DACs-2 DAC Mismatches in DSMs Calibration and Randomization Dynamic Element Matching-1 Dynamic Element Matching-2
117106086	Electronics & Communication Engineering	Digital Circuits and Systems	Prof. S. Srinivasan	Video	IIT Madras	Select Introduction To Digital Circuits Introduction To Digital Circuits Combinational Logic Basics Combinational Circuits Logic Simplification Karnaugh Maps And Implicants Logic Minimization Using Karnaugh Maps Karnaugh Map Minimization Using Maxterms Code Converters Parity Generators And Display Decoder Arithmetic Circuits Carry Look Ahead Adders Subtractors 2?'S Complement Subtractor and BCD Adder Array Multiplier Introduction to Sequential Circuits S-R, J-K and D Flip Flops J-K and T Flip Flops Triggering Mechanisms of Flip Flops and Counters Up/ Down Counters Shift Registers Application of shift Registers State Machines Design of Synchronous Sequential Circuits Design using J-K Flip Flop Mealy and Moore Circuits Pattern Detector MSI and LSI Based Design Multiplexer Based Design Encoders and Decoders Programmable Logic Devices Design using Programmable Logic Devices Design using Programmable Logic Devices (contd) MSI and LSI based Implementation of Sequential Circuits MSI and LSI based Implementation of Sequential Circuits (contd) Design of circuits using MSI sequential blocks System Design Example System Design Example (contd) System Design using the concept of controllers System Design using the concept of controllers (contd)
117106087	Electronics & Communication Engineering	Electronics for Analog Signal Processing - I	Prof. K. Radhakrishna Rao	Video	IIT Madras	Select Introduction Diode Diode characteristics Rectifier Voltage Multiplier Full Wave Rectifier and Peak Detector Diode as a GATE Analog GATE Small Signal Analysis of Diode Circuit Zener Regulator and Voltage Regulator Varactor Diode Amplifiers Cascading of Amplifiers Cascading of Amplifiers h and g Parameters Two Port Analysis Amplifier Applications Frequency Limitations Of An Amplifier Distortion In Amplifiers Bipolar Junction Transistor Transistor (BJT) Inverter Transistor Biasing Stable Way of Biasing Common Emitter Amplifiers Transistor Biasing Using Single Supply Metal Oxide Semiconductor Construction of a MOSFET Varieties of MOSFETS and JFETS Characteristics of MOSFET Cascading Amplifiers Cascading (Direct Coupling) The Differential Amplifiers BJT Differential Amplifiers MOSFET Differential Amplifiers Cascading Differential Amplifiers Current Source and Current Sink NMOS Inverters and CMOS Inverters Active Components used in Electronics
117106088	Electronics & Communication Engineering	Electronics for Analog Signal Processing - II	Prof. K. Radhakrishna Rao	Video	IIT Madras	Select Feedback Theory Negative Feedback Negative Feedback Y-Feedback h and g Negative Feedback g Feedback with Mosfet Operational Amplifier in Negative Feedback Operational Amplifier in Negative Feedback Positive Feedback (Regenerative) Experimental Demonstration Instrumentation Amplifiers Active Filters Simulation of Harmonic Oscillators Oscillators Oscillators Frequency Compensation in Negative Feedback Frequency Compensation Wideband (video) Amplifiers Wideband Amplifiers ICs For Video And Tuned Amplifier Applications Power Amplifier Power Amplifier Class B and C Power Amplifiers Class-B Power Amplifier Load and Drive Control Circuits Voltage Regulators Voltage Regulators Voltage Regulators Convertors Analog Multipliers (Modems & Mixers) Log-Antilog Multipliers Multipliers Multipliers AGC/AVC AGC/AVC Experimental Demonstration PLL (Phase Locked Loop) PLL(Phase Locked Loop) Lock Range Capture Range and FSK and FM
117106089	Electronics & Communication Engineering	High Speed Devices and Circuits	Prof. K.N. Bhat	Video	IIT Madras	Select Introduction to Basic concepts Requirements for high speed circuits, devices and materials Classification and properties of semiconductor devices Ternary compound semiconductors and their applications Ternary compound semiconductors and their applications(contd.) Crystal structures in GaAs Dopants and impurities in GaAs and InP Brief Overview of GaAs Technology for High Speed Devices Epitaxial Techniques for GaAs and high speed devices MBE and LPE for GaAs Epitoxy GaAs and InP devices for Microelectronics Metal Semiconductor contacts for MESFET Metal Semiconductor contacts for MESFET(contd) Metal Semiconductor contacts for MESFET(Contd) Ohmic contacts on semiconductors Fermi level pinning, I V characteristics of Schottky Barrier Diodes Schottky Barrier Diodes I V characteristics of Non idealities -1 Schottky Barrier Diodes I V characteristics of Non idealities -1 Causes of Non idealities in the Schottky Barrier Diodes (I V characteristics) MESFET operations and I V characteristics MESFET I V characteristics Shockley's Model MESFET Shockley's Model and velocity saturation effect MESFET velocity saturation effect on drain current saturation MESFET : Drain current saturation Ids due to velocity saturation MESFET : Effects of channel length and gate length on IDS and gm MESFET : Effects of velocity saturation and velocity field characteristics MESFET : Effects of velocity field characteristics - Overshoot effects MESFET : Velocity overshoot effect and self aligned MESFET SAINT Self Aligned MESFET SAINT Threshold Voltage and Sub Threshold current Hetero junctions Hetero junctions and high electron Mobility Transistor(HEMT) Hetero junctions and high electron Mobility Transistor(HEMT) (Contd.) High Electron Mobility Transistor HEMT off voltage, I-V characteristics and trans conductance I-V characteristics and trans conductance and optimization Indium phosphide based HEMT Pseudomorphic HEMT and Hetrojunction Bipolar Transistors Hetero junction Bipolar Transistors (HBT) Hetero junction Bipolar Transistors (HBT) (Contd.) Hetero junction Bipolar Transistors (HBT) (Contd.) Hetero junction Bipolar Transistors(HBT)-4(Contd)
117106090	Electronics & Communication Engineering	Principles of Communication	Prof. V. Venkat Rao	Web	IIT Madras	Select Representation of Signals Probability and Random Variables Random Signals and Noise Linear Modulation Angle Modulation Digital Transmission of Analog Signals Noise Performance of Various Modulation Schemes
117106091	Electronics & Communication Engineering	Solid State Devices	Prof. S. Karmalkar	Video	IIT Madras	Select Introduction on Solid State Devices Evolution and Uniqueness of Semiconductor Equilibrium Carrier Concentration Equilibrium Carrier Concentration Equilibrium Carrier Concentration Equilibrium Carrier Concentration Equilibrium Carrier Concentration Equilibrium Carrier Concentration Equilibrium Carrier Concentration Equilibrium Carrier Concentration Equilibrium Carrier Concentration Carrier Transport Carrier Transport (contd) Carrier Transport (contd) Excess Carriers Excess Carriers (contd) Procedure for Device Analysis Procedure for Device Analysis (contd) PN Junction PN Junction (contd) PN Junction (contd) PN Junction (contd) PN Junction (contd) PN Junction (contd) PN Junction (contd) Bipolar Junction Transistor Bipolar Junction Transistor (contd) Bipolar Junction Transistor (contd) Bipolar Junction Transistor (contd) Bipolar Junction Transistor (contd) Bipolar Junction Transistor (contd) Bipolar Junction Transistor (contd) Metal-Oxide-Semiconductor (MOS) Junction Metal-Oxide-Semiconductor (MOS) Junction (contd) Metal-Oxide-Semiconductor (MOS) Junction (contd) Metal-Oxide-Semiconductor (MOS) Junction (contd) Metal-Oxide-Semiconductor (MOS) Junction (contd) MOS Field Effect Transistor MOS Field Effect Transistor (contd) MOS Field Effect Transistor (contd) MOS Field Effect Transistor (contd) The Final Lecture - Conclusion
117106092	Electronics & Communication Engineering	VLSI Circuits	Prof. S. Srinivasan	Video	IIT Madras	Select Introduction to VLSI Design Combinational Circuit Design Programmable Logic Devices Programmable Array Logic Review of Flip-Flops Sequential Circuits Sequential Circuit Design MSI Implementation of Sequential Circuits Design of Sequential Circuits using One Hot Controller Verilog Modeling of Combinational Circuits Modeling of Verilog Sequential Circuits - Core Statements Modeling of Verilog Sequential Circuits - Core Statements(Contd) RTL Coding Guidelines Coding Organization - Complete Realization Coding Organization - Complete Realization (Contd) Writing a Test Bench System Design using ASM Chart Example of System Design using ASM Chart Examples of System Design using Sequential Circuits Examples of System Design using Sequential Circuits (Contd) Microprogrammed Design Microprogrammed Design (Continued) Design Flow of VLSI Circuits Simulation of Combinational Circuits Simulation of Combinational and Sequential Circuits Analysis of Waveforms using Modelsim Analysis of Waveforms using Modelsim (Continued) ModelSim Simulation Tool Synthesis Tool Synthesis Tool (Continued) Synplify Tool - Schematic Circuit Diagram View Technology View using Synplify Tool Synopsys Full and Parallel Cases Xilinx Place & Route Tool Xilinx Place & Route Tool (Continued) PCI Arbiter Design using ASM Chart Design of Memories - ROM Design of Memories- RAM Design of External RAM Design of Arithmetic Circuits Design of Arithmetic Circuits (Continued) Design of Arithmetic Circuits (Continued) System Design Examples System Design Examples (Continued) System Design Examples (Continued) System Design Examples (Continued) System Design Examples (Continued) System Design Examples using FPGA Board System Design Examples using FPGA Board (Continued) Advanced Features of Xilinx Project Navigator System Design Examples using FPGA Board (Continued) System Design Examples using FPGA Board (Continued) System Design Examples using FPGA Board (Continued) System Design Examples using FPGA Board (Continued) Project Design Suggested for FPGA/ASIC Implementations
117106093	Electronics & Communication Engineering	VLSI Technology	Dr. Nandita Dasgupta	Video	IIT Madras	Select Introduction on VLSI Design Bipolar Junction Transistor Fabrication MOSFET Fabrication for IC Crystal Structure of Si Crystal Structure contd Defects in Crystal + Crystal growth Crystal growth Contd + Epitaxy I Epitaxy II - Vapour phase Epitaxy Epitaxy III - Doping during Epitaxy Molecular beam Epitaxy Oxidation I - Kinetics of Oxidation Oxidation II Oxidation rate constants Oxidation III - Dopant Redistribution Oxidation IV - Oxide Charges Diffusion I - Theory of Diffusion Diffusion II - Infinite Source Diffusion III - Actual Doping Profiles Diffusion IV Diffusion Systems Ion - Implantation Process Ion - Implantation Process Annealing of Damages Masking during Implantation Lithography - I Lithography - II Wet Chemical Etching Dry Etching Plasma Etching Systems Etching of Si,Sio2,SiN and other materials Plasma Deposition Process Metallization - I Problems in Aluminium Metal contacts IC BJT - From junction isolation to LOCOS Problems in LOCOS + Trench isolation More about BJT Fabrication and Realization Circuits + Transistors in ECL Circuits MOSFET I - Metal gate vs. Self-aligned Poly-gate MOSFET II Tailoring of Device Parameters CMOS Technology Latch - up in CMOS BICMOS Technology
117106100	Electronics & Communication Engineering	Pattern Recognition	Dr. K.Vijayarekha	Web	IIT Madras	Select Basic concepts - 1 Basic concepts - 2 Basic concepts - 3 Structure of typical pattern recognition System Role of decision functions in pattern recognition Linear and generalized decision functions Concept of pattern space and weight space Geometric properties Implementation of decision functions Feature vectors Feature spaces Feature Selection and Feature Extraction Distance measures - 1 Distance measures - 2 Clustering transformation and feature ordering Feature selection through entropy minimization Pattern classification by distance functions Minimum distance classification Cluster and cluster seeking algorithms Max- Min Distance method C- means Iterative Algorithm Pattern classification using Statistical classifiers Bayes’ classifier Classification performance measures Risk and error probabilities Fuzzy and crisp classification Fuzzy Pattern Recognition Syntactic pattern recognition Selection of primitives Introduction to Artificial Neural Network Neural network structures for PR Neural network based pattern associators Feed forward networks trained by back propagation Application of pattern recognition problem for classification of citrus fruit images Selection of primitives for classification of citrus fruit images Segmentation of citrus fruit images Feature Extraction Surface defect classification of citrus fruit images
117106108	Electronics & Communication Engineering	NOC:Basic Electrical Circuits	Dr. Nagendra Krishnapura	Video	IIT Madras	Select Preliminaries Current Voltage Electrical elements and circuits Kirchhoff\'s current law(KCL) Kirchhoff\'s Voltage law(KVL) Voltage Source Current Source Resistor Capacitor Inductor Mutual Inductor Linearity of Elements Solutions to the assignment on units 1 and 2 Series connection-Voltage sources in series Series connection of R, L, C, current source Elements in parallel Current source in series with an element; Voltage source in parallel with an element Extreme cases: Open and short circuits Summary Voltage controlled voltage source(VCVS) Voltage controlled current source(VCCS) Current controlled voltage source(CCVS) Current controlled current source(CCCS) Realizing a resistance using a VCCS or CCCS Scaling an element\'s value using controlled sources Example calculation Solution to the assignment on units 3 and 4 Power and energy absorbed by electrical elements Power and energy in a resistor Power and energy in a capacitor Power and energy in an inductor Power and energy in a voltage source Power and energy in a current source Goals of circuit analysis Number of independent KCL equations Number of independent KVL equations and branch relationships Analysis of circuits with a single independent source Analysis of circuits with multiple independent sources using superposition Superposition: Example Solution to the assignment on units 5 and 6 What is nodal analysis Setting up nodal analysis equations Structure of the conductance matrix How elements appear in the nodal analysis formulation Completely solving the circuit starting from nodal analysis Nodal analysis example Matrix inversion basics Nodal analysis with independent voltage sources Supernode for nodal analysis with independent voltage sources Nodal analysis with VCCS Nodal analysis with VCVS Nodal analysis with CCVS Nodal analysis with CCCS Nodal analysis summary Solution to the assignment on units 7 and 8 Planar circuits Mesh currents and their relationship to branch currents Mesh analysis Mesh analysis with independent current sources-Supermesh Mesh analysis with current controlled voltage sources Mesh analysis with current controlled current sources Mesh analysis using voltage controlled sources Nodal analysis versus Mesh analysis Superposition theorem Pushing a voltage source through a node Splitting a current source Substitution theorem: Current source Substitution theorem: Voltage source Substituting a voltage or current source with a resistor Solutions Extensions to Superposition and Substitution theorem Thevenin\'s theorem Worked out example: Thevenin\'s theorem Norton\'s theorem Worked out example: Norton\'s theorem Maximum power transfer theorem Preliminaries. Two port parameters y parameters y parameters: Examples Solutions. z parameters z parameters: Examples h parameters h parameters: Examples g parameters g parameters: Examples Calculations with a two-port element Calculations with a two-port element. Degenerate cases Relationships between different two-port parameters Equivalent circuit representation for two ports Reciprocity Proof of reciprocity of resistive two-ports Proof for 4-terminal two-ports Reciprocity in terms of different two-port parameters Reciprocity in circuits containing controlled sources Examples Solutions.. Feedback amplifier using an opamp Ideal opamp Negative feedback around the opamp Finding opamp signs for negative feedback Example: Determining opamp sign for negative feedback Analysis of circuits with opamps Inverting amplifier Summing amplifier Instrumentation amplifier Negative resistance and Miller effect Finding opamp signs for negative feedback-circuits with multiple opamps Opamp supply voltages and saturation KCL with an opamp and supply currents Solutions... Circuits with storage elements(capacitors and inductors) First order circuit with zero input-natural response First order RC circuit with zero input-Example First order circuit with a constant input General form of the first order circuit response First order RC circuit with a constant input-Example First order circuit with piecewise constant input First order circuit with piecewise constant input-Example First order circuit-Response of arbitrary circuit variables Summary: Computing first order circuit response Does a capacitor block DC? Finding the order of a circuit First order RC circuits with discontinuous capacitor voltages Summary: Computing first order circuit response with discontinuities First order RL circuits First order RL circuit with discontinuous inductor current-Example First order RC circuit with an exponential input First order RC response to its own natural response First order RC response to a sinusoidal input First order RC response to a sinusoidal input-via the complex exponential Summary: Linear circuit response to sinusoidal input via the complex exponential Three methods of calculating the sinusoidal steady state response Calculating the total response including initial conditions Why are sinusoids used in measurement? Second order system natural response Second order system as a cascade of two first order systems Second order system natural response-critically damped and underdamped Generalized form of a second order system Numerical example Series and parallel RLC circuits Forced response of a second order system Steady state response calculation and Phasors Phasors cont\'d Magnitude and Phase plots Magnitude and phase plotes of a second order system Maximum power transfer and Conjugate matching
117106109	Electronics & Communication Engineering	Advanced Logic Synthesis	Dhiraj Taneja	Video	IIT Madras	Select MOS Transistor MOS Transistor - Detailed Study Combinational Circuits & layout Delay Sequential Circuits Logical Effort Circuit Families Lab-01 Lab-02 Lab-03 Lab-04 Introduction to Synthesis Libraries RTL Coding for Synthesis Reading Design in DC Design Environment Design Constraints Compile Flow and stratergies Analysis and Reporting Lab-05 Advanced Synthesis Techniques Datapath Extraction Guidelines Power - Methodology and Analysis Lab-06 Lab-07 Lab-08 Lab-09 Static Timing Analysis - Concepts and Flow Interconnects and Delay calculation Clock and Exceptions On Chip Variation Introduction to Crosstalk Gaussian / Normal Distribution Equivalence Checking / Formal Verification
117106111	Electronics & Communication Engineering	ARM Based Development	S.Chandramouleeswaran	Video	IIT Madras	Select Types of computer Architectures, ISA's and ARM History Embedded System Software and Hardware, stack implementation in ARM, Endianness, condition codes Processor core VS CPU core, ARM7TDMI Interface signals, Memory Interface, Bus Cycle types, Register set, Operational Modes Instruction Format, ARM Core Data Flow Model, ARM 3 stage Pipeline, ARM family attribute comparision ARM 5 stage Pipeline, Pipeline Hazards, Data forwarding - a hardware solution ARM ISA and Processor Variants, Different Types of Instructions, ARM Instruction set, data processing instructions Shift Operations, shift Operations using RS lower byte, Immediate value encoding Dataprocessing Instructions AddressingMode-1, Addressing Mode -2 Addressing Mode -2, LDR/STR, Addressing mode -3 with examples Instruction Timing, Addressing Mode - 4 with Examples Swap Instructions, Swap Register related Instructions, Loading Constants Program Control Flow, Control Flow Instructions, B & BL instructions, BX instruction Interrupts and Exceptions, Exception Handlers, Reset Handling Aborts, software Interrupt Instruction, undefined instruction exception Interrupt Latency, Multiply Instructions, Instruction set examples Thumb state, Thumb Programmers model, Thumb Implementation, Thumb Applications Thumb Instructions, Interrupt processing Interrupt Handelling schemes, Examples of Interrupt Handlers Coprocessors Coprocessor Instructions, data Processign Instruction, data transfers, register transfers Number representations, floating point representation Flynn's Taxonomy, SIMD and Vector Processors, Vector Floating Point Processor (VFP), VFP and ARM interactions, An example vector operation Memory Technologies, Need for memory Hierarchy, Hierarchical Memory Organization, Virtual Memory Cache Memory, Mapping Functions Cache Design, Unified or split cache, multiple level of caches, ARM cache features, coprocessor 15 for system control Processes, Memory Map, Protected Systems, ARM systems with MPU, memory Protection Unit (MPU) Physical Vs Virtual Memory, Paging, Segmentation MMU Advantage, virtual memory translation, Multitasking with MMU, MMU organization, Tightly coupled Memory (TCM) ARM Development Environment, Arm Procedure Call Standard (APCS), Example C program Embedded software Development, Image structure, linker inputs and outputs, memory map, application startup AMBA Overview, Typical AMAB Based Microcontroller, AHB bus features, AHB Bus transfers, APB bus transfers, APB bridge DMA, Peripherals, Programming Peripherals in ARM DMA:Direct Memory Access Protocols (I2c, SPI), UART, GPIO ARM ISAs, ARMv5, ARMv6, ARM v7, big.little technology, ARMv8
117106112	Electronics & Communication Engineering	Embedded Software Testing	MADHUKESHWARA H M	Video	IIT Madras	Select Embedded Systems Basics Session 1 Embedded Systems Basics Session 1 Contd.. Prerequistics for Embedded Systems Testing Test Case Designa and procedures Test Standards Depicting Levels of Testing Depicting Levels of Testing Contd.. Software Life Cycle Embedded V-Model Life Cycle Embedded V-Model Life Cycle contd.. Master Test Planning Dynamic Testing Black Box Testing Black Box Testing Contd. Black Box Testing Contd.. Black Box Testing Contd... Model Based Design Intro. Dynamic Testing Contd.. White Box Testing White Box Testing Cont. Grey-box testing Static Testing Static Analysis Static Analysis Contd. Static Analysis Contd.. Test Metrics Software Testing Metrics Depicting Levels of Testing Contd... Integration Test Strategy Integration Tests Environment Use Case Diagram Configure Management Elements SCM Activities Test Management Tool SCM Activities Contd.. Overview Lecture 1 Unit Testing Unit Testing Contd.. Understading C++ Unit Testing Contd... Level Testing Identify Test Cases Test Link Work Flow Dynamic Testing.
117106113	Electronics & Communication Engineering	Linux Programming & Scripting	Anand Iyer	Video	IIT Madras	Select Linux Basics-I Linux Basics-II Linux Basics-III Linux Basics-IV Linux Networking -I Linux Networking -II File Transfer Protocol Domain Name System DNS Continued DFS AFS and NIS PERL 1 PERL 2 PERL 3 PERL 4 PERL 4. PERL 5 PERL 7 PERL 8 PERL 9 Using sort PERL 10 Programming Using Tcl/Tk-I Programming Using Tcl/Tk-II Programming Using Tcl/Tk-III More about Procedures TCP,Ports and Sockets I/O and Processes Bindings Programming Using Tcl/Tk-IV Furniture Arranger Bindtags Tcl in Synopsys Tools Python Programming Scope Iteration More about Regexps Advanced Functions Exception Handling Examples of file Parsing Program on If Statement Program on Lists Makefiles
117106114	Electronics & Communication Engineering	NOC:Digital Circuits and Systems	Prof. Shankar Balachandran	Video	IIT Madras	Select Introduction Basic Boolean Logic Boolean Theorems Definitions, SoP and Pos Algebraic Minimization Examples Introduction to Verilog Universality, Rearranging Truth Tables Karnaugh Maps K-Map Minimization K-Map with Don't cares Multiple Output Functions Number Systems Encoders and Decoders Multiplexers Multiplexer based Circuit Design Verilog Compiling and Running Verilog - A Demonstration Sequential Elements Gated Latches Flipflops Verilog - Assign Statement and Instantiation Sequential Circuits CMOS+Electrical Properties Delays Sequential Element Delays More Sequential Circuits Introduction to State Machines Always Statement in Verilog Sequential Logic Synthesis FSM Design Problems State Minimization State Assignment Timing Sequential Circuits Verilog Styles + Sequential Elements GCD Algorithm GCD Machines Datapath GCD State Machine GCD Top Level Module Datapath in Verilog Datapath Elements in Verilog FSM in Verilog Putting it all together Pipelining K-stage Pipeline Interleaving and Parallelism Blocking and Non-blocking Statements Modeling Circuits with Pipelining Signed Number Representation Signed Number Addition Adder/Subtracter Fast Adders Multiplication Closing Remarks
117106116	Electronics & Communication Engineering	NOC:Networks and Systems(Course sponsored by Aricent)	Dr. Andrew Thangaraj	Video	IIT Madras	Select Exercises. Full circuit example Frequency response and stability Many facets of the system function (contd) General LTI systems and more about H(s) Examples and Advantages of L-transform Mutual Inductance Continued Laplace transform method for mutual inductance Laplace transform for resistor and system analysis Applications of Laplace transform to network transients Exercises Relating Fourier and Laplace Transform Inverse Laplace Transform and Contour Integration Partial fractions: general case Inverse Laplace transform Laplace transform examples Examples of Laplace transform Complex convolution and periodic functions Functions in circuits - constant and sinusoidal functions Functions in circuits - Exponential function Complex numbers and other topics Systems, Signals, Networks Representation and Classification of Systems Linear systems Time-invariance and causality Signals, Elementary continuous signals Complex frequencies of signals Discontinuous signals - step, ramp Unit impulse or delta function Basic discrete-time signals Examples of Signals Introduction to Systems, Complementary Functions, Initial Conditions Special initial conditions Characterization of a linear system Impulse Response Evaluating the Convolution Integral Worked-out Problems Introduction and Motivation Evaluating Fourier series coefficients Symmetry conditions Symmetry Condition Examples Application to Network Analysis Exponential Fourier Series Frequency Spectrum Examples Signal Power and Related Ideas Convergence of Fourier Series Week 1 Solutions Hints for Assignment 2 Hints for Assignment 3 Additional Properties of Fourier Series Exercises on Fourier Series Lab Demo From Fourier Series to Fourier Transform Continuous Time Fourier Transform Fourier Transform Examples Examples and Some Properties of Fourier Transform Properties of Fourier Transform (contd.) More Fourier Transform Properties Energy Considerations Energy Considerations II Helpful Relationships for Inverse Fourier Transform Fourier transform of signals that are not absolutely integrable Fourier Transform of Periodic Signals, Unit Step and Signum Function Truncated Sine wave and Convolution properties Integration in Time domain Application of continuous-time Fourier transform to system analysis Comments about transient analysis Sampling Theorem and Exercises on Fourier Transforms Introduction to Laplace Transform Laplace transforms of important functions Recap, Poles / Zeros and Laplace Transform Notation Properties: Linearity, differentiation in the time domain Application and properties of Laplace transform More properties of Laplace transform: Shift in frequency domain More properties of Laplace transform Properties: Division by `t, Initial value theorem, Final value theorem Properties: Convolution in time domain
117107035	Electronics & Communication Engineering	Advanced Antenna Theory	Dr. Amalendu Patnaik	Web	IIT Roorkee	Select Introduction, Types of antennas Radiation mechanism, Poynting vector, Steradian concept, Power intensity Antenna Parameters: Radiated power, Radiation pattern, Field regions Antenna Parameters: Directivity, Gain, Antenna polarization Antenna Parameters: Axial ratio, Input impedance, Reflection coefficient, Return loss, VSWR Antenna Parameters: Impedance bandwidth, Effective aperture; Communication link and Friis transmission equation Radiation integrals and Auxiliary Potential Functions (Part-1) Introduction, Infinitesimal dipole Infinitesimal dipole: Radiation zones, Total radiated power, Radiation resistance, Directivity, Effective area Short dipole Finite-length dipole Finite-length dipole: Radiated power, Radiation resistance, Directivity, Effective area Half-wave dipole and its properties Loop antenna Introduction, Field equivalence principle Love’s equivalence principle, Electrical and magnetic conductor equivalence principle Computation of field quantities of aperture antenna Relation between wire and aperture antennas, Horn antenna design principle Introduction, Principle of frequency-independent antenna Examples of frequency-independent antennas Log-periodic antenna concept and examples Introduction, Advantages and disadvantages, Microstrip antenna configurations Excitation techniques, Criteria for substrate selection, Radiation mechanism Methods of analysis, Transmission line model: Part -1 Transmission line model: Part -2 Cavity model: Part-1 Cavity model: Part-2 Introduction, Two-element array Example problems, Pattern multiplication concept N-element array, Uniform array , Array factor Broad-side and end-fire arrays, Phased array Directivity and pattern characteristic of linear uniform array Non-uniform array, Binomial array Dolph-Chebyshev array concept Design principle of Chebyshev array and examples Planar arrays Introduction, Need of smart antenna system, Overview of smart antenna system Types of smart antennas, Switched beam system, Adaptive system Beam forming, Fixed weight beam forming: Maximum signal-to-interference ratio beam-former Minimum mean square error Adaptive beam forming: LMS algorithm Sample matrix inversion method Radiation integrals and Auxiliary Potential Functions (Part-2)
117107094	Electronics & Communication Engineering	Analog Circuits	Dr. Pramod Agarwal	Web	IIT Roorkee	Select Lecture 1 Lecture 2 Lecture 3 Lecture 4 Lecture 5 Lecture 6 Lecture 7 Lecture 8 Lecture 9 Lecture 10 Lecture 11 Lecture 12 Lecture 13 Lecture 14 Lecture 15 Lecture 16 Lecture 17 Lecture 18 Lecture 19 Lecture 20 Lecture 21 Lecture 22 Lecture 23 Lecture 24 Lecture 25 Lecture 26 Lecture 27 Lecture 28 Lecture 29 Lecture 30
117107095	Electronics & Communication Engineering	Basic Electronics	Dr. Pramod Agarwal	Web	IIT Roorkee	Select p-n Junction Diode Diode Diode Operating Point Applications of Diode Clipper Circuits Clipper and Clamper Circuits Clamper Circuits Zener Diode Special Purpose Diodes BIpolar Junction Transistor Common Base Configuration Common Base Amplifier Common Emitter Configuration Biasing Techniques for CE Amplifiers Stability of Operating Point Biasing Techniques Biasing Techniques Small Signal CE Amplifiers Analysis of CE amplifier Design of Amplifier Common Collector Amplifier Power Amplifier Power Considerations Cascade Amplifiers Frequency Response of Amplifier h-Parameters h-parameters h-parameters Power Amplifier Power Amplifier Class B Power Amplifiers Power Amplifier Current Sources Uni-junction transistor Uni-junction transistor Field Effect Transistor Biasing the Field Effect Transistor Biasing the Field Effect Transistor FET a amplifier JFET Applications
117108037	Electronics & Communication Engineering	Biophotonics	Dr. Manoj Varma	Web	IISc Bangalore	Select Introduction Geometric Optics Wave Optics I Wave Optics II Magnetic Waves: EM Optics I Electro-Magnetic Waves: EM Optics II Photons Light Matter Interactions & Lasers Spectroscopies Optoelectronics Basic Microscopy Fluorescence Imaging Focal Volume Reduction Fluorescence Techniques Biomedical Imaging Optical Manipulation Biosensors Overview Labeled DNA Sensors Bio-Patterning Methods Microarrays Label Free Biosensors Useful References
117108038	Electronics & Communication Engineering	Circuits for Analog System Design	Prof. M.K. Gunasekaran	Video	IISc Bangalore	Select Transistor Amplifier Transistor Op-amp and Transistor Based Voltage Regulator Some applications of transistor -1 Some applications of transistor - II Transformer design & Heat sink design Op-amp Based Linear Voltage Regulator Short circuit protection for linear power supply Temperature indicator design using Op-amp On & off Temperature controller design Proportional Temperature Controller Design PID - Temperature Controller Design Heater Drive for Various Temperature Controllers Short Circuit Protection of Power MOSFET Error budgeting for temperature Indicator PID Temperature Controllers with Error Budgeting Error Budgeting for Constant Current Sources Error Budgeting for Thermo Couple Amplifier Error Budgeting for Op amp Circuits Gain Error Calculation in Op amp Circuits Input Resistance Calculations for Op amp Output Resistance Calculations for Op amp Error Budgeting for Different Circuits 4-20 mA current Transmitter design Error budgeting for 4-20mA Current Transmitters LVDT Based Current Transmitters Constant Current Source Design 4-20 MA Based Temperature Transmitter 3-Wire Current Transmitter Various Resistance Measurement Techniques Ratio Transformer Technique to Measure Resistance and capacitance Capacitive Sensor Circuit Design Examples Capacitive Sensor Circuit With High Impedance Amplifier AC- applications of the Op-Amp and Lock in Amplifier Design Design of lock in Amplifier Circuit with example Dual Slopes ADC – Design Examples Dual Slope ADC and Successor approximation ADC MC based ADC Digital to analog Converter design and working, Flash ADC Flash ADC and ADC Converter errors Sigma delta ADC working Principle
117108040	Electronics & Communication Engineering	Digital System design with PLDs and FPGAs	Prof. Kuruvilla Varghese	Video	IISc Bangalore	Select Course Contents, Objective Revision of Prerequisite Design of Synchronous Sequential Circuits Analysis of Synchronous Sequential Circuits Top-down Design Controller Design Control algorithm and State diagram Case study 1 Entity, Architecture and Operators Concurrency, Data flow and Behavioural models Structural Model, Simulation Simulating Concurrency Classes and Data types Concurrent statements and Sequential statements Sequential statements and Loops Modelling flip-flops, Registers Synthesis of Sequential circuits Libraries and Packages Operators, Delay modelling Delay modelling VHDL Examples VHDL Examples, FSM Clock FSM issues 1 FSM Issues 2 FSM Issues 3 VHDL coding of FSM FSM Issues 4 FSM Issues 5 Synchronization 1 Synchronization 2 Evolution of PLDs Simple PLDs Simple PLDs: Fitting Complex PLDs FPGA Introduction FPGA Interconnection, Design Methodology Xilinx Virtex FPGA’s CLB Xilinx Virtex Resource Mapping, IO Block Xilinx Virtex Clock Tree FPGA Configuration Altera and Actel FPGAs VHDL Test bench Case study 2 Case study on FPGA Board
117108044	Electronics & Communication Engineering	Error Correcting Codes	Prof. P. Vijay Kumar	Video	IISc Bangalore	Select Course Overview & Basics Example Codes and their Parameters Mathematical Preliminaries: Groups Subgroups and Equivalence Relations Cosets, Rings & Fields Vector Spaces, Linear Independence and Basis Linear Codes, & Linear independence Spanning & Basis The Dual Code Systematic Generator Matrix Minimum Distance of a Linear Code Bounds on the size of a Code Asymptotic Bounds Standard Array Decoding Performance Analysis of the SAD State and Trellis The Viterbi Decoder Catastrophic Error Propagation Path Enumeration Viterbi Decoder over the AWGN Channel Generalized Distributive Law The MPF Problem Further Examples of the MPF Problem Junction Trees Example of Junction Tree Construction Message passing on the Junction tree GDL Approach to Decoding Convolutional Codes ML Code-Symbol Decoding of the Convolutional Code LDPC Codes LDPC Code Terminology Gallager Decoding Algorithm A BP Decoding of LDPC Codes BP Decoding (Continued) Density Evolution under BP decoding Convergence & Concentration Theorem – LDPC Codes A Construction for Finite Fields Finite Fields: A Deductive Approach Deductive Approach to Finite Fields Subfields of a Finite field Transform Approach to Cyclic Codes Estimating the Parameters of a Cyclic Code Decoding Cyclic Codes
117108047	Electronics & Communication Engineering	Nanoelectronics: Devices and Materials	Dr. Navakanta Bhat	Video	IISc Bangalore	Select Introduction to Nanoelectronics CMOS Scaling Theory Short Channel Effects Subthreshold Conduction Drain Induced Barrier Lowering Channel and Source/Drain Engineering CMOS Process Flow Gate oxide scaling and reliability High-k gate dielectrics Metal gate transistor Industrial CMOS Technology Ideal MOS C-V Characteristics Effect of non idealities on C-V MOS Parameter Extraction from C-V Characteristics MOS Parameter Extraction from I-V Characteristics MOSFET Analysis, sub-threshold swing “S” Interface state density effects on “S”. Short Channel Effects (SCE) and Drain Induced Barrier Lowering (DIBL) Velocity Saturation, Ballistic transport, and Velocity Overshoot Effects and Injection Velocity SOI Technology and comparisons with Bulk Silicon CMOS technology SOI MOSFET structures, Partially Depleted (PD)and Fully Depleted (FD) SOIMOSFETs FD SOI MOSFET: Operation Modes and Threshold Voltages and Electric Fields Sub-threshold Slope & SCE suppression in FD SOI MOSFET, Volume Inversion and Ultra thin (UTFD) SOI MOSFET and quantization Effect, FINFET Need for MS contact Source/Drain Junction in Nano scale MOSFETs Rectifying and Ohmic contacts and challenges in MS unction source drain MOSFET Technology Effect of Interface states and Fermi level pinning on MS contacts on Si and passivation techniques for MS S/D MOSFETS Germanium as an alternate to silicon for high performance MOSFETs and the challenges in Germanium Technology Germanium MOSFT technology and recent results on surface passivated Ge MOSFETS Compound semiconductors and hetero junction FETsfor high performance GaAs MESFETs: Enhancement and depletion types . Velocity Overshoot effcts in GaAs MESFETs Hetero-junctions and High Electron Mobility Transistors (HEMT) Introduction to Nanomaterials Basic Principles of Quantum Mechanics Basic Principles of Quantum Mechanics contd. Energy bands in crystalline solids Quantum structures and devices Crystal growth and nanocrystals Nanocrystals and nanostructured thin films Nanowires and other nanostructures Carbon Nanostructures and CVD Atomic layer deposition (ALD) Characterisation of nanomaterials
117108048	Electronics & Communication Engineering	Pattern Recognition	Prof. P.S. Sastry	Video	IISc Bangalore	Select Introduction to Statistical Pattern Recognition Overview of Pattern Classifiers The Bayes Classifier for minimizing Risk Estimating Bayes Error; Minimax and Neymann-Pearson classifiers Implementing Bayes Classifier; Estimation of Class Conditional Densities Maximum Likelihood estimation of different densities Bayesian estimation of parameters of density functions, MAP estimates Bayesian Estimation examples; the exponential family of densities and ML estimates Sufficient Statistics; Recursive formulation of ML and Bayesian estimates Mixture Densities, ML estimation and EM algorithm Convergence of EM algorithm; overview of Nonparametric density estimation Convergence of EM algorithm, Overview of Nonparametric density estimation Nonparametric estimation, Parzen Windows, nearest neighbour methods Linear Discriminant Functions; Perceptron -- Learning Algorithm and convergence proof Linear Least Squares Regression; LMS algorithm AdaLinE and LMS algorithm; General nonliner least-squares regression Logistic Regression; Statistics of least squares method; Regularized Least Squares Fisher Linear Discriminant Linear Discriminant functions for multi-class case; multi-class logistic regression Learning and Generalization; PAC learning framework Overview of Statistical Learning Theory; Empirical Risk Minimization Consistency of Empirical Risk Minimization Consistency of Empirical Risk Minimization; VC-Dimension Complexity of Learning problems and VC-Dimension VC-Dimension Examples; VC-Dimension of hyperplanes Overview of Artificial Neural Networks Multilayer Feedforward Neural networks with Sigmoidal activation functions; Backpropagation Algorithm; Representational abilities of feedforward networks Feedforward networks for Classification and Regression; Backpropagation in Practice Radial Basis Function Networks; Gaussian RBF networks Learning Weights in RBF networks; K-means clustering algorithm Support Vector Machines -- Introduction, obtaining the optimal hyperplane SVM formulation with slack variables; nonlinear SVM classifiers Kernel Functions for nonlinear SVMs; Mercer and positive definite Kernels Support Vector Regression and ?-insensitive Loss function, examples of SVM learning Overview of SMO and other algorithms for SVM; ?-SVM and ?-SVR; SVM as a risk minimizer Positive Definite Kernels; RKHS; Representer Theorem Feature Selection and Dimensionality Reduction; Principal Component Analysis No Free Lunch Theorem; Model selection and model estimation; Bias-variance trade-off Assessing Learnt classifiers; Cross Validation; Bootstrap, Bagging and Boosting; Classifier Ensembles; AdaBoost Risk minimization view of AdaBoost
117108097	Electronics & Communication Engineering	Information Theory and Coding	Prof. Pavan S Nuggehalli	Web	IISc Bangalore	Select Information Theory and Coding
117108107	Electronics & Communication Engineering	Analog Circuits and Systems 1	Prof. K. Radhakrishna Rao	Video	IISc Bangalore	Select Analog System Design Design of PLL and FLL Frequency Locked Loop (Popularly known as PLL) Phase and Frequency Followers Non-Sinusoidal Oscillators and VCO (FM & FSK Generators) Regenerative Comparators and Non-Sinusoidal Oscillators Transconductor based Oscillator LC Oscillator - Effect of Non-idealities Waveform Generation Automatic Tuning of Filters (PLL) and Review of Filter Design State-Space Filters (Tuning of Filters) State Space Filters Universal Active Filter - Effect of Active Device GB Active Filters - Part I Active Filters - Part II Active Filters: Q-enhancement Passive Filters - Part I Passive Filters - Part II DC Voltage Regulators Filters - Approximations to ideal filter functions Instrumentation Amplifiers, Integrators and Differentiators Non-linear Analog Signal Processing Design of Feedback Amplifiers Part II Design of Feedback Amplifiers and Instrumentation Amplifiers Dynamic Behavior of Feedback Systems Part II Design of Feedback Amplifiers Part I Static Charecteristic of Feedback Systems Dynamic Behaviour of Feedback Systems Part-I Electronic Devices for Analog Circuits Part II Feedback in Systems Active Devices for Analog Signal Processing Systems Electronic Devices for Analog Circuits Part I Synthesis of Amplifiers using Nullators and Norators Passive Electronic Devices for Analog Signal Processing Analog Signal Processing using One Port Networks Analog Signal Processing using One Port Networks, Passive Two Ports and Ideal amplifiers Role of Analog Signal Processing in Electronic Products - Part II Introduction to Sensors, Signals and Systems Role of Analog Signal Processing in Electronic Products - Part I
117108124	Electronics & Communication Engineering	NOC:Design and Simulation of DC-DC converters using open source tools	Prof. L. Umanand	Video	IISc Bangalore	Select System Overview Understanding Rectifier with C-filter Setting up gEDA, ngSpice and Octave Simulation walk-through : Rectifier C-filter example Designing the rectifier capacitor filter circuit Startup surge limiting DC-DC converter concepts Buck, Boost and Buck-Boost Converters Simulation Example of Buck Converter Understanding Buck Converter Understanding Boost and Buck-Boost Forward Converter Topology Waveforms and Design Simulation of Forward Converter Forward Converter with Lossless Core Reset Transformer Design Inductor Design Flyback Converter Topology Pushpull Converter Half and Full Bridge Converters Close Loop Operation of Converters Simulation examples Multi-Output Converters Concluding Remarks
117108140	Electronics & Communication Engineering	NOC:Enclosure design of electronics equipment	Prof. N. V Chalapathi Rao	Video	IISc Bangalore	Select Conclusion Conclusion CAD sample Example CAD sample Example CAD Layout CAD Layout Detailing with CAD Detailing with CAD Integrating Products with CAD Integrating Products with CAD Product Detailing Product Detailing Components CAD Physical Models Components CAD Physical Models Sheet Metal and Plastic common details Sheet Metal and Plastic common details Sample of Simple Organic Shapes Sample of Simple Organic Shapes CAD in Layout Drawing CAD in Layout Drawing Types of CAD Types of CAD CAD for enclosure Design CAD for enclosure Design Egpt layout with CAD Egpt layout with CAD MIL C connectors MIL C connectors Detailing of Built in Heat sink boxes Detailing of Built in Heat sink boxes Connector basics Connector basics Connectors part 2 Connectors part 2 Common connectors Common connectors Gasketing practice Gasketing practice Gasketing Basics Gasketing Basics Off the shelf Aluminum enclosures Off the shelf Aluminum enclosures Understanding Understanding Heat sink enclosures Heat sink enclosures Testing for IP class Testing for IP class Sealed Enclosures Video Sealed Enclosures Video Public utility boxes Public utility boxes EMI Sealing EMI Sealing Sealed Enclosures 2 Sealed Enclosures 2 Ready made enclosures Ready made enclosures Application documentation and Selection Application documentation and Selection Index of protection, Safety Index of protection, Safety NEMA and related NEMA and related Video in ID Lab Video in ID Lab What can be done in the lab Bending What can be done in the lab Bending Issues in bending and folding Issues in bending and folding Making a quick model Making a quick model Detailing in plastic Detailing in plastic Sheet Metal bending Sheet Metal bending Development of enclosures for bending Development of enclosures for bending Aluminium for common equipment Aluminium for common equipment Use of Aluminium extrusions Use of Aluminium extrusions Application of Sheet metal Application of Sheet metal Materials choice Materials choice Enclosures with detailing: Examples Enclosures with detailing: Examples Alternate Designs in an everyday item Alternate Designs in an everyday item Sheet metal in small equipment(PSU) Sheet metal in small equipment(PSU) Layouts and Materials of small equipment Layouts and Materials of small equipment Sketching Part 2 Sketching Part 2 "Enclosures" to Product design "Enclosures" to Product design Examples of product enclosures ID_PD Examples of product enclosures ID_PD Sketching in design for communication Sketching in design for communication Sketching as a tool with example and exercise Sketching as a tool with example and exercise Design as applied to small electronics products and projects Design as applied to small electronics products and projects Enclosure Design in electronic equipment Enclosure Design in electronic equipment Aspects and features that are non electrical and are essential to Electronic Product Realisation Aspects and features that are non electrical and are essential to Electronic Product Realisation Connectors (multi way) and CoAx Connectors (multi way) and CoAx Off the shelf enclosures Off the shelf enclosures Fabricating with flat plastic Fabricating with flat plastic Video of Fabrication Video of Fabrication Materials used for construction Materials used for construction Enclosure design for Electronics Equipment Introduction Enclosure design for Electronics Equipment Introduction Gasketing Basics Gasketing Basics Gasketing practice Gasketing practice Sealed Enclosures 2 Sealed Enclosures 2 EMI Sealing EMI Sealing Public utility boxes Public utility boxes
117108141	Electronics & Communication Engineering	NOC:Design of photovoltaic systems	Prof. L. Umanand	Video	IISc Bangalore	Select LIFE CYCLE COSTING LCC example-02 Application of integrated magnetics SVPWM - analog implementation SVPWM - discrete implementation 3ph PV-Grid interface example 3ph d-q controlled grid connection DC to AC transformations 3ph d-q controlled grid connection AC to DC transformations 3ph d-q controlled grid connection intro PV to grid topologies Part-III PV to grid topologies Part-II PV to grid topologies Part-I Grid connection principle Reciprocating pump Centrifugal pump Octave script for hydraulic power PV AND WATER PUMPING Examples Numerical solution - Colebrook formula Hydraulic energy and power Water pumping principle Demo of Peltier cooling Thermal aspects- Radiation and mass transport Thermal aspects- Conduction Thermal aspects Peltier element - datasheet Peltier cooling Peltier device - principle Batteries in parallel Battery charger -simulation of current control Battery charger - slope compensation Battery charger - Understanding current control Direct PV-battery connection Simulation - MPPT Practical points- MPPT for non-resistive loads Practical points- Gate driver Impedance control methods- Reference cell - Power slope method 2 Clearness index Energy with atmospheric effects Batteries - intro Sizing PV for applications without batteries Impedance control methods- Reference cell - Power slope method 1 Impedance control methods- Reference cell - current scaling Impedance control methods- Reference cell - voltage scaling Impedance control methods Input impedance of DC-DC converters -Simulation - PV and DC-DC interface Input impedance of DC-DC converters -PV module in SPICE Input impedance of DC-DC converters -Buck-Boost converter Input impedance of DC-DC converters - Buck converter Input impedance of DC-DC converters - Boost converter MPPT concept Design toolbox in octave PV system design- PV array size PV system design- Battery size PV system design- Days of autonomy and recharge PV system design- Load profile Other energy storage methods Batteries - Capacity SIZING PV Examples Clearness index and energy scripts in Octave Airmass Energy plots in octave Atmospheric effects Energy on a horizontal flat plate Insolation on a horizontal flat plate Solar geometry Earth centric viewpoint and declination Insolation variation with time of day Introduction Insolation and irradiance Practicals - PV source emulation Practicals - Measuring i-v characteristics Protecting cells in parallel Identical cells in parallel Simulation of cells in series Battery selection Batteries - Comparison Batteries - Energy and power densities Batteries - Efficiency Batteries - C-rate Impedance control methods- Reference cell - Sampling method Energy on a tilted flat plate Examples Sunrise and sunset hour angles Simulation of cells in parallel Interconnecting modules Non-identical cells in parallel LIFE CYCLE COSTING LCC example-03 LIFE CYCLE COSTING LCC with example-01 LIFE CYCLE COSTING Annual payment and present worth factor LIFE CYCLE COSTING Growth model examples LIFE CYCLE COSTING Growth models 1ph d-q controlled grid connection 3ph d-q controlled grid connection Complete 3ph grid connection 3ph d-q controlled grid connection dq-axis theory Pumped hydro application PV power Octave script for head calculation Total dynamic head Thermal aspects- A peltier refrigeration example Thermal aspects- Convection Batteries in series - charge equalisation Charge controller Practical points - Housekeeping power supply Protecting cells in series Interconnecting modules in series Load line Non-identical cells in series Fill factor PV cell simulation Identical cells in series Effect of temperature Temperature effect calculation example Datasheet study Cell efficiency Model of PV cell Short Circuit, Open Circuit and peak power parameters A historical perspective PV cell characteristics and equivalent circuit Impedance control methods- Reference cell - Hill climbing method
117108142	Electronics & Communication Engineering	NOC:Photonic integrated circuits	Dr. Srinivas Talabatulla	Video	IISc Bangalore	Select Introduction to Photonic Integrated Circuits Optical Waveguide Theory- Symmetric Waveguides Optical Waveguide Theory- Asymmetric Waveguides Vector Modes Channel Waveguide Directional Coupler and Coupled Mode Theory Passive Devices and Beam Propagation Method Dynamic Devices Integrated optical Systems and Applications Fabrication and Characterisation MOEMS Ring Resonators Photonic Band Gap Devices Lecture Summary