Lecture 1 - Background and Introduction
Lecture 2 - Discrete-time Signals and Systems
Lecture 4 - Properties of LTI Systems, LCCDEs
Lecture 5 - Eigenfunction & Frequency Response
Lecture 6 - Discrete-time Fourier Transform
Lecture 7 - DTFT, Introduction to z-transform
Lecture 9 - ROC, Inverse z-transform
Lecture 10 - Properties of z-transform
Lecture 11 - Sampling of CT Signals
Lecture 12 - Reconstruction, Decimation & Interpolation
Lecture 13 - Decimation & Interpolation (Cont'd)
Lecture 14 - Digital Processing of Analog Signals, ADC
Lecture 15 - Quantization and Encoding
Lecture 16 - Bandpass Sampling
Lecture 17 - Group Delay, Inverse Systems
Lecture 19 - Minimum-Phase Systems, Generalized Linear Phase Systems
Lecture 20 - Structures for DT Systems
Lecture 21 - Quantization Effects, Introduction to Filter Design
Lecture 22 - Filter Design (I) – Impulse Invariance Method
Lecture 23 - Filter Design (II) – Bilinear Transformation
Lecture 24 - Filter Design (III) - FIR Filter Design
Lecture 25 - Kaiser Window, Discrete Fourier Transform (DFT)
Lecture 26 - Effect of Zero-padding in DFT
Lecture 27 - Representation of DFT in Matrix Form, DFT Properties