Contents:
Introduction – Digital Systems – Characterization Description,Testing of Digital Syst – LTI Systems Step & Impulse Responses,Convolution – Inverse Systems,Stability,FIR & IIR-FIR & IIR; Recursive & Non Recursive – Discrete Time Fourier Transform – DFT (Contd.) Introduction to Z Transform – Discrete Time Systems in the Frequency Domain – Simple Digital Filters – All Pass Filters,Com.Filters – Linear Phase filters,Complementary Transfer Fn – Test for Stability using All Pass Functions – Digital Processing of Continuous Time Signals

Problem Solving Session: FT, DFT,& Z Transforms – Analog Filter Design – LPF Design – 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 and Digital Filter Design – IIR Design by Bilinear Transformation – Digital to Digital Frequency Transformation – FIR Digital Filter Design by Windowing & Frequency Sampling – Solving Problems on DSP Structures – FIR Design by Frequency Sampling

### Course Curriculum

 Digital Signal Processing Introduction Details 25:26 Digital Signal Processing Introduction Contd Details 55:26 Digital Systems Details 53:53 Lec 4 – Characterization Description,Testing of Digital Syst Details 49:3 Lecture – 5 LTI Systems Step & Impulse Responses,Convolution Details 57:5 Lecture – 6 Inverse Systems,Stability,FIR & IIR Details 1:10 Lecture – 7 FIR & IIR; Recursive & Non Recursive Details 56:27 Lecture – 8 Discrete Time Fourier Transform Details 57:17 Lecture – 9 Discrete Fourier Transform (DFT) Details 1:1:19 Lecture – 10 DFT (Contd.) Details 49:53 Lecture – 11 DFT (Contd.) Introduction to Z Transform Details 1:1:6 Lecture – 12 Z Transform Details 56:33 Lecture-13 Z Transform (Contd…) Details 58:25 Lecture – 14 Discrete Time Systems in the Frequency Domain Details 1:1:15 Lecture – 15 Simple Digital Filters Details 59:36 Lecture – 16 All Pass Filters,Com.Filters Details 58:28 Lecture – 17 Linear Phase filters,Complementary Transfer Fn Details 59:21 Lecture – 18 Compensatary Transfer Functions, (Contd.), Details 59:34 Lecture – 19 Test for Stability using All Pass Functions Details 1:21 Lecture – 20 Digital Processing of Continuous Time Signals Details 57:29 Lecture – 21 Problem Solving Session: FT, DFT,& Z Transforms Details 58:44 Lecture – 22 Problem Solving Session: FT,DFT, & Z Transforms Details 1:58 Lecture – 23 Analog Filter Design Details 56:49 Lecture – 24 Analog Chebyshev LPF Design Details 57:40 Lecture – 25 Analog Filter Design (Contd.): Transformations Details 1:8 Lecture – 26 Analog frequency Transformation; Details 1:1:13 Lecture – 27 Problem Solving Session on Discrete Time System Details 54:3 Lecture – 28 Digital Filter Structures Details 53:55 Lecture – 29 IIR Realizations Details 46:4 Lecture – 30 All Pass Realizations Details 51:36 Lecture – 31 Lattice Synthesis (Contd.) Details 1:2 Lecture – 32 FIR Lattice Synthesis Details 1:1:13 Lecture – 33 FIR Lattice (Contd.) and Digital Filter Design Details 54:41 Lecture – 34 IIR Filter Design Details 50:57 Lecture – 35 IIR Design by Bilinear Transformation Details 51:54 Lecture – 36 IIR Design Examples Details 1:1:8 Digital to Digital Frequency Transformation Details 0:57 FIR Design Details 57:47 Lecture – 39 FIR Digital Filter Design by Windowing Details 1:32 Lecture – 40 FIR Design by Windowing & Frequency Sampling Details 55:57 Solving Problems on DSP Structures Details 54:4 FIR Design by Frequency Sampling Details 57:10 Lecture – 43 FIR Design by Frequency Sampling (Contd.) Details 45:28

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