Modules / Lectures


Sl.No Chapter Name MP4 Download
1Lecture 01: IntroductionDownload
2Lecture 02: Discrete Time Signals and SystemsDownload
3Lecture 03: Linear, Shift Invariant Systems Download
4Lecture 04 : Properties of Discrete Convolution Causal and Stable Systems Download
5Lecture 05: Graphical Evaluation of Discrete ConvolutionsDownload
6Lecture 06: Discrete Time Fourier Transform Download
7Lecture 07: Properties of DTFTDownload
8Lecture 08: Dirac Comb and Sampling Analog Signals Download
9Lecture 09: Relation between DTFT and Analog Fourier Transform Download
10Lecture 10: Nyquist Interpolation FormulaDownload
11Lecture 11: Rational SystemsDownload
12Lecture 12: Properties of Rational SystemsDownload
13Lecture 13: Introduction to Z-transformDownload
14Lecture 14: Properties of Z-transformDownload
15Lecture 15: Properties of z-transformDownload
16Lecture 16: Inverse z-transformDownload
17Lecture 17:Introduction to DFTDownload
18Lecture 18: Properties of DFTDownload
19Lecture 19:Introduction to Interpretation of Circular ConvolutionDownload
20Lecture 20: Graphically Interpretation of Circular ConvolutionDownload
21Lecture 21: Zero Padding and Linear convolution Via DFTDownload
22Lecture 22: Decimation and DFT of Decimated SequencesDownload
23Lecture 23: Expension and Interpolation of SequencesDownload
24Lecture 24: Factor-of-M Polyphase Decomposition of SequencesDownload
25Lecture 25: Nobel IdentifiesDownload
26Lecture 26: Efficient Decimator and Interpolator StructureDownload
27Lecture 27: Linear Phase FiltersDownload
28Lecture 28: Properties of Linear Phase FiltersDownload
29Lecture 29: Structures for IIR FiltersDownload
30Lecture 30: Structures for FIR FiltersDownload
31Lecture 31: Analog LTI Systems, Fourier and Laplace TransformsDownload
32Lecture 32: Pole, Zero and Stability of of Analog FiltersDownload
33Lecture 33: Analog Filter Design Example Butterworth Lowpass FilterDownload
34Lecture 34: IIR Filter Design by Implus Invariance MethodDownload
35Lecture 35: Design Filter Design from Analog Proptotype Filters by s - z TransformationsDownload
36Lecture 36: Bilinear TransformationDownload
37Lecture 37: FIR Filter Design by WindowDownload
38Lecture 38: FFT: Decimation in TimeDownload
39Lecture 39: Complexity Analysis of FFTDownload
40Lecture 40: Bit Reversal and FFTDownload

Sl.No Chapter Name English
1Lecture 01: IntroductionDownload
To be verified
2Lecture 02: Discrete Time Signals and SystemsDownload
To be verified
3Lecture 03: Linear, Shift Invariant Systems Download
To be verified
4Lecture 04 : Properties of Discrete Convolution Causal and Stable Systems Download
To be verified
5Lecture 05: Graphical Evaluation of Discrete ConvolutionsDownload
To be verified
6Lecture 06: Discrete Time Fourier Transform Download
To be verified
7Lecture 07: Properties of DTFTDownload
To be verified
8Lecture 08: Dirac Comb and Sampling Analog Signals Download
To be verified
9Lecture 09: Relation between DTFT and Analog Fourier Transform Download
To be verified
10Lecture 10: Nyquist Interpolation FormulaDownload
To be verified
11Lecture 11: Rational SystemsDownload
To be verified
12Lecture 12: Properties of Rational SystemsDownload
To be verified
13Lecture 13: Introduction to Z-transformDownload
To be verified
14Lecture 14: Properties of Z-transformDownload
To be verified
15Lecture 15: Properties of z-transformDownload
To be verified
16Lecture 16: Inverse z-transformDownload
To be verified
17Lecture 17:Introduction to DFTDownload
To be verified
18Lecture 18: Properties of DFTDownload
To be verified
19Lecture 19:Introduction to Interpretation of Circular ConvolutionDownload
To be verified
20Lecture 20: Graphically Interpretation of Circular ConvolutionDownload
To be verified
21Lecture 21: Zero Padding and Linear convolution Via DFTDownload
To be verified
22Lecture 22: Decimation and DFT of Decimated SequencesDownload
To be verified
23Lecture 23: Expension and Interpolation of SequencesDownload
To be verified
24Lecture 24: Factor-of-M Polyphase Decomposition of SequencesDownload
To be verified
25Lecture 25: Nobel IdentifiesDownload
To be verified
26Lecture 26: Efficient Decimator and Interpolator StructureDownload
To be verified
27Lecture 27: Linear Phase FiltersDownload
To be verified
28Lecture 28: Properties of Linear Phase FiltersDownload
To be verified
29Lecture 29: Structures for IIR FiltersDownload
To be verified
30Lecture 30: Structures for FIR FiltersDownload
To be verified
31Lecture 31: Analog LTI Systems, Fourier and Laplace TransformsDownload
To be verified
32Lecture 32: Pole, Zero and Stability of of Analog FiltersDownload
To be verified
33Lecture 33: Analog Filter Design Example Butterworth Lowpass FilterDownload
To be verified
34Lecture 34: IIR Filter Design by Implus Invariance MethodDownload
To be verified
35Lecture 35: Design Filter Design from Analog Proptotype Filters by s - z TransformationsDownload
To be verified
36Lecture 36: Bilinear TransformationDownload
To be verified
37Lecture 37: FIR Filter Design by WindowDownload
To be verified
38Lecture 38: FFT: Decimation in TimeDownload
To be verified
39Lecture 39: Complexity Analysis of FFTDownload
To be verified
40Lecture 40: Bit Reversal and FFTDownload
To be verified


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