Introduction to Digital Signal Processing and Filter Design

Name: Introduction to Digital Signal Processing and Filter Design
Price: 121.88 USD
Availability: InStock
ISBN: 9780471464822

ISBN-10: 0471464821

ISBN-13: 9780471464822

Edition: 2005

Authors: B. A. Shenoi

List price: $131.00

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Shenoi provides a thorough introduction to the subject of digital signal processing, with emphasis on fundamental concepts and applications of discrete-time systems, and the synthesis of these systems to meet specification in the time and frequency domains.

Book details

List price: $131.00
Copyright year: 2005
Publisher: John Wiley & Sons, Incorporated
Publication date: 10/19/2005
Binding: Hardcover
Pages: 440
Size: 6.25" wide x 9.50" long x 1.00" tall
Weight: 1.540
Language: English

B. A. SHENOI, PHD, is Professor, Department of Electrical Engineering, Wright State University. Dr. Shenoi is internationally recognized for his research in active and digital filter theory and has published more than fifty papers on that topic in professional journals. He is a Life Fellow of the IEEE, a recipient of the Golden Jubilee Medal from the IEEE Circuits and Systems Society, and a recipient of the IEEE's Third Millennium Gold Medal.



Preface



Introduction



Introduction



Application of DSP



Discrete-Time Signals



History of Filter Design



Analog and Digital Signal Processing



Summary


Problems


References



Time-Domain Analysis and z Transform



A Linear, Time-Invariant System



z Transform Theory



Using z Transform to Solve Difference Equations



Solving Difference Equations Using the Classical Method



z Transform Method Revisited



Convolution Revisited



A Model from Other Models



Stability



Solution Using MATLAB Functions



Summary


Problems


References



Frequency-Domain Analysis



Introduction



Theory of Sampling



DTFT and IDTFT



DTFT of Unit Step Sequence



Use of MATLAB to Compute DTFT



DTFS and DFT



Fast Fourier Transform



Use of MATLAB to Compute DFT and IDFT



Summary


Problems


References



Infinite Impulse Response Filters



Introduction



Magnitude Approximation of Analog Filters



Analog Frequency Transformations



Digital Filters



Impulse-Invariant Transformation



Bilinear Transformation



Digital Spectral Transformation



Allpass Filters



IIR Filter Design Using MATLAB



Yule-Walker Approximation



Summary


Problems


References



Finite Impulse Response Filters



Introduction



Linear Phase Fir Filters



Fourier Series Method Modified by Windows



Design of Windowed FIR Filter Using MATLAB



Equiripple Linear Phase FIR Filters



Design of Equiripple FIR Filters Using MATLAB



Frequency Sampling Method



Summary


Problems


References



Filter Realizations



Introduction



FIR Filter Realizations



IIR Filter Realizations



Allpass Filters in Parallel



Realization of FIR and IIR Filters Using MATLAB



Summary


Problems


References



Quantized Filter Analysis



Introduction



Filter Design-Analysis Tool



Quantized Filter Analysis



Binary Numbers and Arithmetic



Quantization Analysis of IIR Filters



Quantization Analyis of FIR Filters



Summary


Problems


References



Hardware Design Using DSP Chips



Introduction



Simulink and Real-Time Workshop



Design Preliminaries



Code Generation



Code Composer Studio



Simulator and Emulator



Conclusion


References



MATLAB Primer



Introduction



Signal Processing Toolbox


References


Index