10EC52 Digital Signal Processing syllabus for TE


Part A
Unit-1 Discrete Fourier Transforms (DFT) 6 hours

Frequency domain sampling and reconstruction of discrete time signals. DFT as a linear transformation, its relationship with other transforms.

Unit-2 Properties of DFT 6 hours

Properties of DFT, multiplication of two DFTs- the circular convolution, additional DFT properties.

Unit-3 Use of DFT in linear filtering 7 hours

Use of DFT in linear filtering, overlap-save and overlap-add method. Direct computation of DFT, need for efficient computation of the DFT (FFT algorithms).

Unit-4 Radix-2 FFT algorithm for the computation of DFT 7 hours

Radix-2 FFT algorithm for the computation of DFT and IDFT–decimation- in-time and decimation-in-frequency algorithms. Goertzel algorithm, and chirp-z transform.

Part B
Unit-5 IIR filter design 6 hours

Characteristics of commonly used analog filters – Butterworth and Chebysheve filters, analog to analog frequency transformations.

Unit-6 Implementation of discrete-time systems 7 hours

Structures for IIR and FIR systems- direct form I and direct form II systems, cascade, lattice and parallel realization.

Unit-7 FIR filter design 6 hours

Introduction to FIR filters, design of FIR filters using - Rectangular, Hamming, Bartlet and Kaiser windows, FIR filter design using frequency sampling technique.

Unit-8 Design of IIR filters from analog filters 7 hours

Design of IIR filters from analog filters (Butterworth and Chebyshev) - impulse invariance method. Mapping of transfer functions: Approximation of derivative (backward difference and bilinear transformation) method, Matched z transforms, Verification for stability and linearity during mapping

Last Updated: Tuesday, January 24, 2023