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Sl.No Chapter Name MP4 Download
1Lecture 1: Introduction: Digital signal processing and its objectives Download
2Lecture 2A: Introduction to sampling and Fourier TransformDownload
3Lecture 2B: Sampling of sine wave and associate complicationDownload
4Lecture 3A: Review of Sampling TheoremDownload
5Lecture 3B: Idealized Sampling, ReconstructionDownload
6Lecture 3C: Filters And Discrete SystemDownload
7Lecture 4A: Answering questions from previous lectures.Download
8Lecture 4B: Desired requirements for discrete systemDownload
9Lecture 4C: Introduction to phasorsDownload
10Lecture 4D: Advantages of phasors in discrete systemsDownload
11Lecture 5A: What do we want from a discrete system?Download
12Lecture 5B: Linearity - Homogeneity and AdditivityDownload
13Lecture 5C: Shift Invariance and Characterization of LTI systemsDownload
14Lecture 6A: Characterization of LSI system using it's impulse responseDownload
15Lecture 6B: Introduction to convolutionDownload
16Lecture 6C: Convolution:deeper ideas and understandingDownload
17Lecture 7A: Characterisation of LSI systems, Convolution-propertiesDownload
18Lecture 7B: RESPONSE OF LSI SYSTEMS TO COMPLEX SINUSOIDSDownload
19Lecture 7C: CONVERGENCE OF CONVOLUTION AND BIBO STABILITYDownload
20Lecture 8A: Commutativity & AssociativityDownload
21Lecture 8B: BIBO Stability of an LSI systemDownload
22Lecture 8C: Causality and memory of an LSI system.Download
23Lecture 8D: Frequency response of an LSI system.Download
24Lecture 9A: Introduction and conditions of StabilityDownload
25Lecture 9B: Vectors and Inner Product.Download
26Lecture 9C: Interpretation of Frequency Response as Dot Product . Download
27Lecture 9D: Interpretation of Frequency Response as Eigenvalues Download
28Lecture 10A: Discrete time fourier transformDownload
29Lecture 10B: DTFT in LSI System and Convolution Theorem.Download
30Lecture 10C: Definitions of sequences and Properties of DTFT.Download
31Lecture 11A: Introduction to DTFT, IDTFTDownload
32Lecture 11B: Dual to convolution propertyDownload
33Lecture 11C: Multiplication Property, Introduction to Parseval's theorem Download
34Lecture 12A: Introduction And Property of DTFTDownload
35Lecture 12B: Review of Inverse DTFTDownload
36Lecture 12C: Parseval's Theorem and energy and time spectral densityDownload
37Lecture 13A: Discussion on Unit StepDownload
38Lecture 13B: Introduction to Z transformDownload
39Lecture 13C: Example of Z transformDownload
40Lecture 13D: Region of ConvergenceDownload
41Lecture 13E: Properties of Z transformDownload
42Lecture 14A: Z- TransformDownload
43Lecture 14B: Rational SystemDownload
44Lecture 15A: INTRODUCTION AND EXAMPLES OF RATIONAL Z TRANSFORM AND THEIR INVERSESDownload
45Lecture 15B: DOUBLE POLE EXAMPLES AND THEIR INVERSE Z TRANSFORMDownload
46Lecture 15C: PARTIAL FRACTION DECOMPOSITIONDownload
47Lecture 15D: LSI SYSTEM EXAMPLESDownload
48Lecture 16A: Why are Rational Systems so important?Download
49Lecture 16B: Solving Linear constant coefficient difference equations which are valid over a finite range of timeDownload
50Lecture 16C: Introduction to Resonance in Rational SystemsDownload
51Lecture 17A: Characterization of Rational LSI systemDownload
52Lecture 17B: Causality and stability of the ROC of the system functionDownload
53Lecture 18A: RECAP OF RATIONAL SYSTEMS AND DISCRETE TIME FILTERSDownload
54Lecture 18B: SPECIFICATIONS FOR FILTER DESIGNDownload
55Lecture 18C: FOUR IDEAL PIECEWISE CONSTANT FILTERSDownload
56Lecture 18D: IMPORTANT CHARACTERISTICS OF IDEAL FILTERSDownload
57Lecture 19A: Synthesis of Discrete Time Filters, Realizable specificationsDownload
58Lecture 19B: Realistic Specifications for low pass filter. Filter Design Process Download
59Lecture 20A: Introduction to Filter Design. Analog IIR Filter,FIR discrete-time filter, IIR discrete-time filter.Download
60Lecture 20B: Analog to discrete transformDownload
61Lecture 20C: Intuitive transforms, Bilinear TransformationDownload
62Lecture 21A: Steps for IIR filter designDownload
63Lecture 21B: Analog filter design using Butterworth ApproximationDownload
64Lecture 22A: Butterworth filter Derivation And Analysis of butterworth system functionDownload
65Lecture 22B: Chebychev filter DerivationDownload
66Lecture 23: Midsem paper review discussionDownload
67Lecture 24A: The Chebyschev ApproximationDownload
68Lecture 24B: Next step in design: Obtain polesDownload
69Lecture 25A: Introduction to Frequency Transformations in the Analog DomainDownload
70Lecture 25B: High pass transformationDownload
71Lecture 25C: Band pass transformationDownload
72Lecture 26A: Frequency TransformationDownload
73Lecture 26B: Different types of filtersDownload
74Lecture 27A: Impulse invariant method and ideal impulse responseDownload
75Lecture 27B: Design of FIR of length (2N+1) by the truncation method,Plotting the function V(w)Download
76Lecture 28A: IIR filter using rectangular window, IIR filter using triangular window Download
77Lecture 28B: Proof that frequency response of an fir filter using rectangular window function centred at 0 is real.Download
78Lecture 29A: Introduction to window functionsDownload
79Lecture 29B: Examples of window functionsDownload
80Lecture 29C: Explanation of Gibb's Phenomenon and it's applicationDownload
81Lecture 30A: Comparison of FIR And IIR Filter's Download
82Lecture 30B: Comparison of FIR And IIR Filter'sDownload
83Lecture 30C: Comparison of FIR And IIR Filter'sDownload
84Lecture 31A: Introduction and approach to realization (causal rational system)Download
85Lecture 31B: Comprehension of Signal Flow Graphs and Achievement of Pseudo Assembly Language Code. Download
86Lecture 32A: Introduction to IIR Filter Realization and Cascade StructureDownload
87Lecture 32B: Cascade Parallel StructureDownload
88Lecture 32C: Lattice StructureDownload
89Lecture 33A: Recap And Review of Lattice Structure, Realization of FIR Function.Download
90Lecture 33B: Backward recursion, Change in the recursive equation of lattice.Download
91Lecture 34A: Lattice structure for an arbitrary rational systemDownload
92Lecture 34B: Example realization of lattice structure for rational systemDownload
93Lecture 35A: Introductory Remarks of Discrete Fourier Transform and Frequency Domain SamplingDownload
94Lecture 35B: Principle of Duality, The Circular ConvolutionDownload

Sl.No Chapter Name English
1Lecture 1: Introduction: Digital signal processing and its objectives Download
Verified
2Lecture 2A: Introduction to sampling and Fourier TransformDownload
Verified
3Lecture 2B: Sampling of sine wave and associate complicationDownload
Verified
4Lecture 3A: Review of Sampling TheoremDownload
Verified
5Lecture 3B: Idealized Sampling, ReconstructionDownload
Verified
6Lecture 3C: Filters And Discrete SystemDownload
Verified
7Lecture 4A: Answering questions from previous lectures.Download
Verified
8Lecture 4B: Desired requirements for discrete systemDownload
Verified
9Lecture 4C: Introduction to phasorsDownload
Verified
10Lecture 4D: Advantages of phasors in discrete systemsDownload
Verified
11Lecture 5A: What do we want from a discrete system?Download
Verified
12Lecture 5B: Linearity - Homogeneity and AdditivityDownload
Verified
13Lecture 5C: Shift Invariance and Characterization of LTI systemsDownload
Verified
14Lecture 6A: Characterization of LSI system using it's impulse responseDownload
Verified
15Lecture 6B: Introduction to convolutionDownload
Verified
16Lecture 6C: Convolution:deeper ideas and understandingDownload
Verified
17Lecture 7A: Characterisation of LSI systems, Convolution-propertiesDownload
Verified
18Lecture 7B: RESPONSE OF LSI SYSTEMS TO COMPLEX SINUSOIDSDownload
Verified
19Lecture 7C: CONVERGENCE OF CONVOLUTION AND BIBO STABILITYDownload
Verified
20Lecture 8A: Commutativity & AssociativityDownload
Verified
21Lecture 8B: BIBO Stability of an LSI systemDownload
Verified
22Lecture 8C: Causality and memory of an LSI system.Download
Verified
23Lecture 8D: Frequency response of an LSI system.Download
Verified
24Lecture 9A: Introduction and conditions of StabilityDownload
Verified
25Lecture 9B: Vectors and Inner Product.Download
Verified
26Lecture 9C: Interpretation of Frequency Response as Dot Product . Download
Verified
27Lecture 9D: Interpretation of Frequency Response as Eigenvalues Download
Verified
28Lecture 10A: Discrete time fourier transformDownload
Verified
29Lecture 10B: DTFT in LSI System and Convolution Theorem.Download
Verified
30Lecture 10C: Definitions of sequences and Properties of DTFT.Download
Verified
31Lecture 11A: Introduction to DTFT, IDTFTDownload
Verified
32Lecture 11B: Dual to convolution propertyDownload
Verified
33Lecture 11C: Multiplication Property, Introduction to Parseval's theorem Download
Verified
34Lecture 12A: Introduction And Property of DTFTDownload
Verified
35Lecture 12B: Review of Inverse DTFTDownload
Verified
36Lecture 12C: Parseval's Theorem and energy and time spectral densityDownload
Verified
37Lecture 13A: Discussion on Unit StepDownload
Verified
38Lecture 13B: Introduction to Z transformDownload
Verified
39Lecture 13C: Example of Z transformDownload
Verified
40Lecture 13D: Region of ConvergenceDownload
Verified
41Lecture 13E: Properties of Z transformDownload
Verified
42Lecture 14A: Z- TransformDownload
Verified
43Lecture 14B: Rational SystemDownload
Verified
44Lecture 15A: INTRODUCTION AND EXAMPLES OF RATIONAL Z TRANSFORM AND THEIR INVERSESDownload
Verified
45Lecture 15B: DOUBLE POLE EXAMPLES AND THEIR INVERSE Z TRANSFORMDownload
Verified
46Lecture 15C: PARTIAL FRACTION DECOMPOSITIONDownload
Verified
47Lecture 15D: LSI SYSTEM EXAMPLESDownload
Verified
48Lecture 16A: Why are Rational Systems so important?Download
Verified
49Lecture 16B: Solving Linear constant coefficient difference equations which are valid over a finite range of timeDownload
Verified
50Lecture 16C: Introduction to Resonance in Rational SystemsDownload
Verified
51Lecture 17A: Characterization of Rational LSI systemDownload
Verified
52Lecture 17B: Causality and stability of the ROC of the system functionDownload
Verified
53Lecture 18A: RECAP OF RATIONAL SYSTEMS AND DISCRETE TIME FILTERSDownload
Verified
54Lecture 18B: SPECIFICATIONS FOR FILTER DESIGNDownload
Verified
55Lecture 18C: FOUR IDEAL PIECEWISE CONSTANT FILTERSDownload
Verified
56Lecture 18D: IMPORTANT CHARACTERISTICS OF IDEAL FILTERSDownload
Verified
57Lecture 19A: Synthesis of Discrete Time Filters, Realizable specificationsDownload
Verified
58Lecture 19B: Realistic Specifications for low pass filter. Filter Design Process Download
Verified
59Lecture 20A: Introduction to Filter Design. Analog IIR Filter,FIR discrete-time filter, IIR discrete-time filter.Download
Verified
60Lecture 20B: Analog to discrete transformDownload
Verified
61Lecture 20C: Intuitive transforms, Bilinear TransformationDownload
Verified
62Lecture 21A: Steps for IIR filter designDownload
Verified
63Lecture 21B: Analog filter design using Butterworth ApproximationDownload
Verified
64Lecture 22A: Butterworth filter Derivation And Analysis of butterworth system functionDownload
Verified
65Lecture 22B: Chebychev filter DerivationDownload
Verified
66Lecture 23: Midsem paper review discussionDownload
Verified
67Lecture 24A: The Chebyschev ApproximationDownload
Verified
68Lecture 24B: Next step in design: Obtain polesDownload
Verified
69Lecture 25A: Introduction to Frequency Transformations in the Analog DomainDownload
Verified
70Lecture 25B: High pass transformationDownload
Verified
71Lecture 25C: Band pass transformationDownload
Verified
72Lecture 26A: Frequency TransformationDownload
Verified
73Lecture 26B: Different types of filtersDownload
Verified
74Lecture 27A: Impulse invariant method and ideal impulse responseDownload
Verified
75Lecture 27B: Design of FIR of length (2N+1) by the truncation method,Plotting the function V(w)Download
Verified
76Lecture 28A: IIR filter using rectangular window, IIR filter using triangular window Download
Verified
77Lecture 28B: Proof that frequency response of an fir filter using rectangular window function centred at 0 is real.Download
Verified
78Lecture 29A: Introduction to window functionsDownload
Verified
79Lecture 29B: Examples of window functionsDownload
Verified
80Lecture 29C: Explanation of Gibb's Phenomenon and it's applicationDownload
Verified
81Lecture 30A: Comparison of FIR And IIR Filter's Download
Verified
82Lecture 30B: Comparison of FIR And IIR Filter'sDownload
Verified
83Lecture 30C: Comparison of FIR And IIR Filter'sDownload
Verified
84Lecture 31A: Introduction and approach to realization (causal rational system)Download
Verified
85Lecture 31B: Comprehension of Signal Flow Graphs and Achievement of Pseudo Assembly Language Code. Download
Verified
86Lecture 32A: Introduction to IIR Filter Realization and Cascade StructureDownload
Verified
87Lecture 32B: Cascade Parallel StructureDownload
Verified
88Lecture 32C: Lattice StructureDownload
Verified
89Lecture 33A: Recap And Review of Lattice Structure, Realization of FIR Function.Download
Verified
90Lecture 33B: Backward recursion, Change in the recursive equation of lattice.Download
Verified
91Lecture 34A: Lattice structure for an arbitrary rational systemDownload
Verified
92Lecture 34B: Example realization of lattice structure for rational systemDownload
Verified
93Lecture 35A: Introductory Remarks of Discrete Fourier Transform and Frequency Domain SamplingDownload
Verified
94Lecture 35B: Principle of Duality, The Circular ConvolutionDownload
Verified


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