Foundations of Digital Signal Processing: Theory, algorithms and hardware design starts by introducing the mathematical foundations of DSP, assuming little prior knowledge of the subject from the reader, and moves on to discuss more complex topics such as Fourier, Laplace and digital filtering. It provides detailed information on off-line, real-time and DSP programming, and guides the reader through advanced topics such as DSP hardware design, FIR and IIR filter design and difference equation manipulation.
A CD accompanies the book. It provides the reader with programs that demonstrate equations discussed in the text and source codes to enable the reader to incorporate algorithms into their own DSP programs.
Reihe
Sprache
Verlagsort
Zielgruppe
Für höhere Schule und Studium
Für Beruf und Forschung
Maße
Höhe: 234 mm
Breite: 160 mm
Dicke: 33 mm
Gewicht
ISBN-13
978-0-85296-431-6 (9780852964316)
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Schweitzer Klassifikation
Dr Patrick Gaydecki is a Reader in the Sensing, Imaging and Signal Processing Group within the School of Electrical and Electronic Engineering at the University of Manchester. His research interests include the design of real-time and offline digital signal processing systems, instrumentation for nondestructive testing and monitoring, and software development for audio and biomedical applications.
Autor*in
University of Manchester, School of Electrical and Electronic Engineering, UK
Charter 1: Definitions and applications of digital signal processing
Charter 2: A linear systems toolbox
Charter 3: An introduction to high-level computer programming using Delphi
Charter 4: Analysis of simple electrical systems using complex impedance, differential and difference equations
Charter 5: Introduction to convolution and correlation
Charter 6: Fourier analysis
Charter 7: Discrete Fourier properties and processing
Charter 8: Introduction to Laplace space and the Laplace transform
Charter 9: An introduction to z-space, the z-transform and digital filter design
Charter 10: Signal sampling, analog to digital and digital to analog conversion
Charter 11: The design and implementation of finite impulse response filters
Charter 12: The design and implementation of infinite impulse response filters
Charter 13: Rudiments of adaptive filters
Charter 14: The design and programming of real-time DSP systems Part 1
Charter 15: The design and programming of real-time DSP systems Part 2
Charter 16: Concluding remarks
