Digital Signal Processing: Concepts and Applications / Edition 2 available in Paperback
- Pub. Date:
- Macmillan Education UK
Digital Signal Processing: Concepts and Applications, second edition covers the basic principles and operation of DSP devices. Its aim is to give the student the essentials of this mathematical subject in a form that can be easily understood and assimilated. The text concentrates on discrete systems, starting from digital filters and discrete Fourier transforms. These are then extended into adaptive filters and spectrum analysers with the minimum of mathematical derivation, concentrating on demonstrating the performance which is achievable from these processors in communications and radar system applications. This new edition has been updated to include learning outcomes and summaries and provide more examples. The text has been completely redesigned and is presented in a clear and easy-to-read style.
* Self assessment questions within the text, with answers provided
* Numerous practical worked examples on processor design and performance simulation
* MATLAB® code for animated simulations available to students via World Wide Web access
This textbook is appropriate for undergraduate and MSc courses in signals and systems and signal processing, and for professional engineers who wish to have a simple, easy-to-read reference book on DSP techniques.
|Publisher:||Macmillan Education UK|
|Edition description:||2nd ed. 2002|
|Product dimensions:||7.44(w) x 9.69(h) x (d)|
About the Author
BERNARD MULGREW is Chair of Signals and Systems in the Department of Electronics and Electrical Engineering at the University of Edinburgh.
PETER GRANT is Head of Department and Professor of Electronic Signal Processing in the Department of Electronics and Electrical Engineering at the University of Edinburgh.
JOHN THOMPSON is a Lecturer in the Department of Electronics and Electrical Engineering at the University of Edinburgh.
Table of Contents
Preface.- Acknowledgements.- Abbreviations.- Principal symbols.- Special functions.- Introduction.- Signal Representation and System Response.- Time-domain Description and Convolution.- Transfer Function and System Characterisation.- Sampled Data Systems and the z-transform.- Infinite Impulse Response Digital Filters.- Finite Impulse Response Digital Filters.- Analysis of Random Signals .- Adaptive Filters.- The Fourier Transform and Spectral Analysis.- The Fast Fourier Transform.- Multirate Signal Processing.