Missing CUSAT DSP syllabus & DSP e book

20.9.08
E-book

1.The Scientist & Engineer’s Guide to Digital Signal Processing by Steven W. Smith.
http://www.dspguide.com/

2.
Mixed Signal and DSP Design Techniques edited by Walt Kester.
http://www.analog.com/en/embedded-processing-dsp/learning-and-development/content/mixed_signal_dsp_design_book/fca.html
these are free e-books and hard cover versions are available for purchase
 
Question Paper


Question paper on CUSAT Dspace here


 Syllabus


2002 admission onwards

601 Digital Signal Processing

Module I
Introduction to discrete time signals & system - Discrete time signals and systems - Properties of discrete systems - linearity - time invariance - causality - stability - convolution - difference equation representation of discrete systems - The Z transform - properties of Z transform - the inverse Z transform - System function.

Module II
Discrete Fourier Transform & Fast Fourier Transform. Discrete Fourier series - properties - discrete fourier transform - properties - block convolution decimation in - time FFT algorithms - decimation in - frequency FFT algorithms - FFT algorithms for N a composite number.

Module III
FIR Digital Filters Realizations - direct - cascade - lattice forms - hardware implementation - FIR filter design using Fourier series - use of window functions - frequency sampling design.

Module IV
IIR Digital Filters Realizations - Direct - Cascade - Parallel forms - hardware implementation - Analog filter approximations - Butterworth and chebychev approximations - The method of mapping of differentials - impulse invariant transformation - Bilinear transformation - Matched Z transform technique.

Module V
Finite word length effects in digital filters - Fixed point arithmetic - Floating point arithmetic - Block floating point arithmetic - Truncation - Rounding - Quantization error in analog to digital conversion - finite register length effects in IIR & FIR filters Limit cycles. Digital signal processing application (Only brief description required) Soft ware implementation of digital filters- Architecture of typical DSP processor .

Reference :
1) Oppenheim & Ronald W Schafer," Digital Signal Processing", Prentice Hall India
2) .Andreas Antoniou , "Digital Filters Analysis & Design", Prentice Hall India
3) R Rabiner & B. Gold , "Theory & Application of Digital Signal processing", Prentice Hall India
4) Andreas Antoniou , "Digital Signal Processing", Prentice Hall India
5) John G Proakis & Dimitris G Manolakis ,"Digital Signal Processing ", Prentice Hall India
6) Sanjit K.Mithra , , "Digital Signal Processing", Tata Mc ­Graw Hill.
7) Douglas K.Lindner, "Introduction to signals &Systems" Mc Graw Hill.

2006 onwards


CS/EE 602 DIGITAL SIGNAL PROCESSING
Module 1
Introduction to signals & systems- Discrete time signals and systems- Properties of discrete systems-linearity, time invariance-causality-stability-convolution-difference equation representation of discrete systems -The Z transform-properties of Z transform- the inverse z transform-System Transfer function.

Module 2
Frequency domain representation of discrete time signals. Discrete Fourier series(DFS)-properties Discrete Time Fourier Transform (DTFT) properties, Discrete Fourier Transform(DFT) properties& Fast Fourier Transform( FFT) Decimation in Time & Decimation in Frequency algorithms.

Module 3
FIR digital Filters: Transfer function. Generalized Difference equation representation. Concept of windowing. Non Recursive realization structures-direct (Tapped delay line structure) –cascade realization- Liner phase realization.
IIR Digital Filters : - Transfer function. Difference equation representation. Recursive Realizations Direct form I , Direct form II –Cascade Realization-Parallel realization – Comparison of IIR & FIR filters in terms of computational complexity, memory requirement, hardware complexity, stability .

Module 4
Finite word length effects in digital filters- fixed point arithmetic -Floating point arithmetic- Block floating point arithmetic - Truncation-Rounding - Quantization error in analog to digital conversion-Limit cycles. General DSP architecture- features _ On chip subsystems- memory organization-Addressing modes- Instruction types - TMS320C54X fixed point processor- TMS320C4X floating point processor
Applications of DSP
Text:

  1. P.Ramesh Babu: Digital signal Processing,SCITEC Pub., 3rd ed
  2. Sanjit K. Mithra, : " Digital Signal Processing", Tata Mc- Graw Hill

References:
  1. John G Proakis & Dimitris G Manolakis : "Digital Signal Processing", PHI, New Delhi
  2. Oppenheim & Ronald W Schafer : "Digital Signal Processing", Prentice Hall India
  3. Steven W. Smith, Digital Signal Processing-A practical guide for Engineers and Scientists , Elsivier India Pvt.Ltd, 2006
  4. Avatar Singh, Digital Signal Processing Implementations, Edition 1

Type of questions for University Examination
Question 1 - 8 short answer questions of 5 marks each. 2 questions from each module
Question 2-5 – There will be two choices from each module .Answer one question from each module of 15 marks



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2 Responses:

Anonymous said...

Thank you for 601 DSP.

sabith pocker said...

Guess I will publish a more detailed help sooner.