Digital Signal Processing: A Practitioner's Approach
by Kaluri V. Rangarao /
2006 / English / PDF
4.6 MB Download
Digital signal processing is essential for improving the accuracy
and reliability of a range of engineering systems, including
communications, networking, and audio and video applications. Using
a combination of programming and mathematical techniques, it
clarifies, or standardizes the levels or states of a signal, in
order to meet the demands of designing high performance digital
hardware.
Digital signal processing is essential for improving the accuracy
and reliability of a range of engineering systems, including
communications, networking, and audio and video applications. Using
a combination of programming and mathematical techniques, it
clarifies, or standardizes the levels or states of a signal, in
order to meet the demands of designing high performance digital
hardware.
Written by authors with a wealth of practical experience working
with digital signal processing, this text is an excellent
step-by-step guide for practitioners and researchers needing to
understand and quickly implement the technology. Split into six,
self-contained chapters,
Written by authors with a wealth of practical experience working
with digital signal processing, this text is an excellent
step-by-step guide for practitioners and researchers needing to
understand and quickly implement the technology. Split into six,
self-contained chapters,Digital Signal Processing: A
Practitioner’s Approach
Digital Signal Processing: A
Practitioner’s Approach covers:
covers:basic principles of signal processing such as linearity,
stability, convolution, time and frequency domains, and noise;
basic principles of signal processing such as linearity,
stability, convolution, time and frequency domains, and noise;descriptions of digital filters and their realization,
including fixed point implementation, pipelining, and field
programmable gate array (FGPA) implementation;
descriptions of digital filters and their realization,
including fixed point implementation, pipelining, and field
programmable gate array (FGPA) implementation;Fourier transforms, especially discrete (DFT), and fast
Fourier transforms (FFT);
Fourier transforms, especially discrete (DFT), and fast
Fourier transforms (FFT);case studies demonstrating difference equations, direction of
arrival (DoA), and electronic rotating elements, and MATLAB
programs to accompany each chapter.
case studies demonstrating difference equations, direction of
arrival (DoA), and electronic rotating elements, and MATLAB
programs to accompany each chapter.
A valuable reference for engineers developing digital signal
processing applications, this book is also a useful resource for
electrical and computer engineering graduates taking courses in
signal processing.
A valuable reference for engineers developing digital signal
processing applications, this book is also a useful resource for
electrical and computer engineering graduates taking courses in
signal processing.