Free Online Lectures and Courses for Electrical Engineering
18 Courses
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ELEC3104 Digital Signal Processing by Prof. E. Ambikairajah
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Digital Signal Processing 6: Discrete-Time Fourier Transform
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Digital Signal Processing 5B: Digital Signal Processing
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Digital Signal Processing 4: Fourier Representation of Signal
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Digital Signal Processing 3: Introduction to Z-Transorm
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Digital Signal Processing 1: Signals and Systems
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Digital Signal Processing 5C: Digital Signal Processing
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Digital Signal Processing 5A: Digital Signal Processing
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Digital Signal Processing 2: Discrete-Time System
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Digital Signal Processing 7: Analogue Filter Design
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Digital Signal Processing 8A: Digital Filter Design
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Digital Signal Processing 8B: Digital Filter Design
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Digital Signal Processing 9: Multirate Digital Signal Processing
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Introduction to Digital Integrated Circuits
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Electrical Engineering 141 – Makeup
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Electrical Engineering 141 - Part 1
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Electrical Engineering 141 - Part 2
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Electrical Engineering 141 - Part 3
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Electrical Engineering 141 - Part 4
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Electrical Engineering 141 - Part 5
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Electrical Engineering 141 - Discussion 2
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Electrical Engineering 141 - Part 6
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Electrical Engineering 141 - Part 7
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Electrical Engineering 141 - Discussion 3
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Electrical Engineering 141 - Part 8
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Electrical Engineering 141 - Part 9
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Electrical Engineering 141 - Part 10
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Electrical Engineering 141 - Discussion 4
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Electrical Engineering 141 - Part 11
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Electrical Engineering 141 - Discussion 5
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Electrical Engineering 141 - Part 12
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Electrical Engineering 141 - Part 13
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Electrical Engineering 141 - Part 14
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Electrical Engineering 141 - Discussion 6
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Electrical Engineering 141 - Part 15
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Electrical Engineering 141 - Part 16
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Electrical Engineering 141 - Discussion 7
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Electrical Engineering 141 - Part 17
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Electrical Engineering 141 - Part 18
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Electrical Engineering 141 - Part 19
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Electrical Engineering 141 - Discussion 8
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Electrical Engineering 141 - Part 20
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Electrical Engineering 141 - Part 21
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Electrical Engineering 141 - Discussion 9
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Electrical Engineering 141 - Part 22
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Electrical Engineering 141 - Part 23
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Electrical Engineering 141 - Part 24
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Electrical Engineering 141 - Discussion 10
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Electrical Engineering 141 - Part 25
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Introduction to Helicopter Aerodynamics & Dynamics
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Introduction to Helicopter Aerodynamics and Dynamics Part 1
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Introduction to Helicopter Aerodynamics and Dynamics Part 2
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Introduction to Helicopter Aerodynamics and Dynamics Part 3
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Introduction to Helicopter Aerodynamics and Dynamics Part 4
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Introduction to Helicopter Aerodynamics and Dynamics Part 5
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Introduction to Helicopter Aerodynamics and Dynamics Part 6
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Introduction to Helicopter Aerodynamics and Dynamics Part 7
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Introduction to Helicopter Aerodynamics and Dynamics Part 8
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Introduction to Helicopter Aerodynamics and Dynamics Part 9
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Introduction to Helicopter Aerodynamics and Dynamics Part 10
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Introduction to Helicopter Aerodynamics and Dynamics Part 11
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Introduction to Helicopter Aerodynamics and Dynamics Part 12
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Introduction to Helicopter Aerodynamics and Dynamics Part 13
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Introduction to Helicopter Aerodynamics and Dynamics Part 14
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Introduction to Helicopter Aerodynamics and Dynamics Part 15
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Introduction to Helicopter Aerodynamics and Dynamics Part 16
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Introduction to Helicopter Aerodynamics and Dynamics Part 17
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Introduction to Helicopter Aerodynamics and Dynamics Part 18
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Introduction to Helicopter Aerodynamics and Dynamics Part 19
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Introduction to Helicopter Aerodynamics and Dynamics Part 20
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Introduction to Helicopter Aerodynamics and Dynamics Part 21
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Introduction to Helicopter Aerodynamics and Dynamics Part 22
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Introduction to Helicopter Aerodynamics and Dynamics Part 23
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Introduction to Helicopter Aerodynamics and Dynamics Part 24
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Introduction to Helicopter Aerodynamics and Dynamics Part 25
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Introduction to Helicopter Aerodynamics and Dynamics Part 26
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Linear Integrated Circuits
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Electrical Engineering 140 – Part 1
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Electrical Engineering 140 – Part 2
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Dev. Operation & Models: Inspection Analysis; G&M
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Make up for Lecture 5: Multi-Tx
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Active Loads: 1-Tx a
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Current Sources
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High Swing Current Source
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Current Source Matching
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Op Amps: Diff. Pair
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Pair Anal. & O
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Op Amps: Finite Gain-BW Product, Freq. Response in FB
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Op Amps: Swing, Compensation & Slew Rate (a 1stpass)
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Compensation: Stability of FB Circuits, Narrowbanding
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Op Amps: Output Stages
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Stabiltiy
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Noarrowboarding Vs Pole Splitting
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Choosing the Compensation Capacitor
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CMOS Op Amp Compensation
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Practical Compensation
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Slew Rate, Setting Time and PSRR
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Feedback Configurations
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Feedback Impedance
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Conclusion of Course
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Nonlinear Finite Element Analysis
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Introduction to Nonlinear Analysis
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Basic Considerations in Nonlinear Analysis
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Lagrangian Continuum Mechanics Variables for Analysis
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Total Lagrangian Formulation - Incremental Analysis
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Updated Lagrangian Formulation - Incremental Analysis
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Formulation of Finite Element Matrices
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2D & 3D Solid Elements; Plane Stress/Strain Conditions
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2-Node Truss Element - Updated Lagrangian Formulation
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2-Node Truss Element - Total Lagrangian Formulation
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Solution of Nonlinear Static FE Equations I
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Solution of Nonlinear Static FE Equations II
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Demonstrative Example Solutions In Static Analysis
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Solution of Nonlinear Dynamic Response I
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Solution of Nonlinear Dynamic Response II
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Elastic Constitutive Relations In T. L. Formulation
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Elastic Constitutive Relations In U. L. Formulation
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Modeling of Elasto-Plastic and Creep Response I
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Modeling of Elasto-Plastic and Creep Response II
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Beam, Plate, and Shell Elements I
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Beam, Plate, and Shell Elements II
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Demonstration Using Adina - Linear Analysis
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Demonstration Using Adina - Nonlinear Analysis
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Physics - Electronics
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Mod-01 P-N Diode
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Mod-01 P-N Junction/Diode (Contd.)
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Mod-01 P-N Diode (Contd.)
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Mod-01 Diode Application
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Mod-02 Transistors
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Mod-02 Reverse - Bias (Contd.)
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Mod-02 Transistors (Continue)
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Mod-02 Transistors (Contd.)
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Mod-02 Biasing A Transistor Unit 2 Contd.
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Mod-02 Biasing of Transistor
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Mod-03 H and R Parameters and Their Use In Small Amplifiers
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Mod-03 Small Signal Amplifiers Analysis Using H - Parameters
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Mod-03 Small Signal Amplifiers Analysis Using R - Parameters
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Mod-03 R - Analysis (Contd.)
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Mod-03 Lecture-15-Common Collector(Cc) Amplifier (Contd.)
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Principles of Digital Communication I
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Introduction to Digital Communication
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Discrete Source Encoding
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Memory-Less Sources
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Entropy and Asymptotic Equipartition Property
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Markov Sources and Lempel-Ziv Universal Codes
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Quantization
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High Rate Quantizers and Waveform Encoding
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Fourier Series
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Discrete-Time Fourier Transforms
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Degrees of Freedom
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Signal Space
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Nyquist Theory
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Random Processes
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Gaussian Random Vectors White Gaussian Noise (WGN)
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Linear Functionals and Filtering of Random Processes
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Introduction to Detection
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Detection for Random Vectors and Processes
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Theorem of Irrelevance
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Baseband Detection and Complex Gaussian Processes
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Introduction of Wireless Communication
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Doppler Spread
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Discrete-Time Baseband Models for Wireless Channels
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Rrayleigh Fading and Incoherent Channels
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Code Division Multiple Access (CDMA)
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Principles of Digital Communication II
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Introduction to Principles of Digital Communication II
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Performance of Small Signal Constellations
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Hard-decision and Soft-decision Decoding, Part 1
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Hard-decision and Soft-decision Decoding, Part 2
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Introduction to Binary Block Codes, Part 1
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Introduction to Binary Block Codes, Part 2
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Introduction to Finite Fields, Part 1
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Introduction to Finite Fields, Part 2
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Introduction to Finite Fields, Part 3
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Reed-Solomon Codes, Part 1
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Reed-Solomon Codes, Part 2
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Reed-Solomon Codes, Part 3
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Introduction to Convolutional Codes, Part 1
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Introduction to Convolutional Codes, Part 2
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Trellis Representations of Binary Linear Block Codes, Part 1
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Trellis Representations of Binary Linear Block Codes, Part 2
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Codes on Graphs, Part 1
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Codes on Graphs, Part 2
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The Sum-Product Algorithm, Part 1
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The Sum-Product Algorithm, Part 2
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Turbo, LDPC, and RA Codes, Part 1
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Turbo, LDPC, and RA Codes, Part 2
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Lattice and Trellis Codes, Part 1
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Lattice and Trellis Codes, Part 2
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Lec 24 | MIT 6.451 Principles of Digital Communication II
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Lec 25 | MIT 6.451 Principles of Digital Communication II
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