NOC:Multirate DSP


Lecture 1 - Introduction to Multirate DSP - Part 1


Lecture 2 - Introduction to Multirate DSP - Part 2


Lecture 3 - Sampling and Nyquist criterion - Part 1


Lecture 4 - Sampling and Nyquist criterion - Part 2


Lecture 5 - Signal Reconstruction - Part 1


Lecture 6 - Signal Reconstruction - Part 2


Lecture 7 - Reconstruction filter - Part 1


Lecture 8 - Reconstruction filter - Part 2


Lecture 9 - Discrete time processing of continuous time signal - Part 1


Lecture 10 - Discrete time processing of continuous time signal - Part 2


Lecture 11 - DT processing of CT signal example


Lecture 12 - Time scaling- upsampler and downsampler - Part 1


Lecture 13 - Time scaling- upsampler and downsampler - Part 2


Lecture 14 - Upsampler and downsampler- continued - Part 1


Lecture 15 - Upsampler and downsampler- continued - Part 2


Lecture 16 - Decimator properties


Lecture 17 - Properties of Upsampler and Downsampler


Lecture 18 - Fractional sampling rate change - Part 1


Lecture 19 - Fractional sampling rate change - Part 2


Lecture 20 - Multiplexer/ demultiplexer interpretation


Lecture 21 - Noble identities and polyphase decomposition - Part 1


Lecture 22 - Noble identities and polyphase decomposition - Part 2


Lecture 23 - Polyphase decomposition continued - Part 1


Lecture 24 - Polyphase decomposition continued - Part 2


Lecture 25 - Introduction to Multirate Filter Banks


Lecture 26 - Applications of Multirate - Part 1


Lecture 27 - Applications of Multirate - Part 2


Lecture 28 - Spectral Analysis of Filter Bank - Part 1


Lecture 29 - Spectral Analysis of Filter Bank - Part 2


Lecture 30 - DFT and High Resolution Spectral Analysis - Part 1


Lecture 31 - DFT and High Resolution Spectral Analysis - Part 2


Lecture 32 - Transmultiplexer and Maximally Decimated Filterbanks - Part 1


Lecture 33 - Transmultiplexer and Maximally Decimated Filterbanks - Part 2


Lecture 34 - Maximally Decimated Filterbanks 2 - Part 1


Lecture 35 - Maximally Decimated Filterbanks 2 - Part 2


Lecture 36 - Study of Two-channel filter bank


Lecture 37 - Introduction to Quadrature Mirror Filters (QMF)


Lecture 38 - 2-channel QMF Filter Bank Design


Lecture 39 - Study of All-pass filters


Lecture 40 - Study of All-pass lattice


Lecture 41 - All-pass decomposition, the study of Mth band and Nyquist filters


Lecture 42 - Study of two-channel filter bank with perfect reconstruction


Lecture 43 - First part name : Perfect Reconstruction Final Overview. Second part name : Introduction to OFDM- Motivation - Part 1


Lecture 44 - First part name : Perfect Reconstruction Final Overview. Second part name : Introduction to OFDM- Motivation - Part 2


Lecture 45 - Capacity of wireless channels - CSIR - Part 1


Lecture 46 - Capacity of wireless channels - CSIT - Part 2


Lecture 47 - Capacity of wireless channels - Formulation of capacity calculation - Part 3


Lecture 48 - Capacity of wireless channels - Formulation of capacity calculation (Continued...) - Part 1


Lecture 49 - Capacity of wireless channels - Formulation of capacity calculation (Continued...) - Part 2


Lecture 50 - Capacity of wireless channels - Time-invariant Frequency selective channel - Part 3


Lecture 51 - Capacity of wireless channels - Time varying Frequency selective channels - Part 1


Lecture 52 - Multi-rate DSP framework for Multi-carrier Modulation - Part 2


Lecture 53 - MCM with overlapping spectra - Part 1


Lecture 54 - Recap of multirate DSP concepts for building OFDM - Part 2


Lecture 55 - Introduction to Redundancy and it's implementation in multi-rate framework - Part 3


Lecture 56 - M-channel multicarrier Transceiver - Part 1


Lecture 57 - M-channel multicarrier Transceiver - Part 2


Lecture 58 - M-channel multicarrier Transceiver - Part 3


Lecture 59 - Pseudo -circulant structure - Part 1


Lecture 60 - Pseudo -circulant structure - Part 2


Lecture 61 - MCM impairments and CP - Part 1


Lecture 62 - MCM impairments and CP - Part 2


Lecture 63 - Orthogonal Frequency Division Multiplexing - Part 1


Lecture 64 - Orthogonal Frequency Division Multiplexing - Part 2


Lecture 65 - Review of OFDM with CP


Lecture 66 - Review of Lec 1-28


Lecture 67 - OFDM applications - Quantization - Part 1


Lecture 68 - OFDM applications - Quantization - Part 2


Lecture 69 - Some more applications of MDSP