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Real-Time Digital Signal Processing from MATLAB® to C with the TMS320C6x DSPs, Second Edition - Thad B. Welch, Cameron H.G. Wright, Michael G. Morrow

Real-Time Digital Signal Processing from MATLAB® to C with the TMS320C6x DSPs, Second Edition

Buch | Hardcover
436 Seiten
2011 | 2nd New edition
Crc Press Inc (Verlag)
978-1-4398-8303-7 (ISBN)
CHF 123,90 inkl. MwSt
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From the Foreword:


"…There are many good textbooks today to teach digital signal processing, but most of them are content to teach the theory, and perhaps some MATLAB® simulations. This book has taken a bold step forward. It not only presents the theory, it reinforces it with simulations, and then it shows us how to actually use the results in real-time applications. This last step is not a trivial step, and that is why so many books, and courses, present only theory and simulations. With the combined expertise of the three authors of this text…the reader can step into the real-time world of applications with a text that presents an accessible path…"


—Delores M. Etter, Texas Instruments Distinguished Chair in Electrical Engineering and Executive Director, Caruth Institute for Engineering Education, Southern Methodist University, Dallas, Texas, USA


 


Mastering practical application of real-time digital signal processing (DSP) remains one of the most challenging and time-consuming pursuits in the field. It is even more difficult without a resource to bridge the gap between theory and practice.


Filling that void, Real-Time Digital Signal Processing from MATLAB® to C with the TMS320C6x DSPs, Second Edition is organized in three sections that cover enduring fundamentals and present practical projects and invaluable appendices. This updated edition gives readers hands-on experience in real-time DSP using a practical, step-by-step framework that also incorporates demonstrations, exercises, and problems, coupled with brief overviews of applicable theory and MATLAB® application.


Engineers, educators, and students rely on this book for precise, simplified instruction on use of real-time DSP applications. The book’s software supports the latest high-performance hardware, including the powerful, inexpensive, and versatile OMAP-L138 Experimenter Kit and other development boards.


Incorporating readers’ valuable feedback and suggestions, this installment covers additional topics (such as PN sequences) and more advanced real-time DSP projects (including higher-order digital communications projects), making it even more valuable as a learning tool.

Section I: Enduring Fundamentals





Introduction and Organization


Why Do You Need This Book?


Real-Time DSP


How to Use This Book


Get Started






Sampling and Reconstruction


Theory


winDSK Demonstration


Talk-Through Using Windows


Talk-Through Using MATLAB and Windows


DSK Implementation in C






FIR Digital Filters


Theory


winDSK Demonstration


MATLAB Implementation


DSK Implementation in C






IIR Digital Filters


Theory


winDSK Demonstration: Notch Filter Application


MATLAB Implementation


DSK Implementation in C






Periodic Signal Generation


Theory


winDSK Demonstration


MATLAB Implementation


DSK Implementation in C


Pseudonoise Sequences






Frame-Based DSP


Theory


winDSK Demonstration


MATLAB Implementation


DSK Implementation in C


Summary of Frame-Based Processing






Digital Filters Using Frames


Theory


winDSK Demonstration


MATLAB Implementation


DSK Implementation in C






The Fast Fourier Transform


Theory


winDSK Demonstration


MATLAB Implementation


Implementation in C






Spectral Analysis and Windowing


Theory


winDSK Demonstration


MATLAB Implementation


DSK Implementation in C


Conclusion





Section II: Projects


Project 1: Guitar Special Effects


Introduction to Projects


Theory


winDSK Demonstration


MATLAB Implementation


DSK Implementation in C






Project 2: Graphic Equalizer


Theory


winDSK Demonstration


MATLAB Implementation


DSK Implementation in C






Project 3: Peak Program Meter


Theory


winDSK Demonstration: commDSK


MATLAB Implementation


DSK Implementation in C






Project 4: AM Transmitters


Theory


winDSK Demonstration


MATLAB Implementation


DSK Implementation in C






Project 5: AM Receivers


Theory


winDSK Demonstration


MATLAB Implementation


DSK Implementation in C






Project 6: Phase-Locked Loop


Theory


winDSK Demonstration


MATLAB Implementation


DSK Implementation in C






Project 7: BPSK Digital Transmitters


Theory


winDSK Demonstration


MATLAB Implementation


DSK Implementation in C






Project 8: BPSK Digital Receivers


Theory


winDSK Demonstration


MATLAB Implementation


DSK Implementation in C






Project 9: MPSK and QAM Digital Transmitters


Theory


winDSK Demonstration


MATLAB Implementation


DSK Implementation in C


Higher-Order Modulation Schemes






Project 10: QPSK Digital Receivers


Theory


winDSK8 Demonstration


MATLAB Implementation


DSK Implementation in C


Follow-On Challenges








Section III: Appendices





Code Composer Studio: An Overview


Introduction


Starting Code Composer Studio


Conclusion






DSP/BIOS


Introduction


DSP/BIOS Sample Projects






Numeric Representations


Endianness


Integer Representations


Integer Division and Rounding


Floating-Point Representations


Fixed-Point Representations


Summary of Numeric Representations






TMS320C6x Architecture


Computer Architecture Basics


TMS320C671x Architecture


TMS320C674x Architecture






Related Tools for DSKs


Introduction


Windows Control Applications


MATLAB Exports


MATLAB Real-Time Interface






Programming Perils and Pitfalls


Debug versus Release Builds


The Volatile Keyword


Function Prototypes and Return Types


Arithmetic Issues


Controlling the Location of Variables in Memory


Real-Time Schedule Failures


Variable Initialization


Integer Data Sizes






Abbreviations, Acronyms, and Symbols






References



Index

Zusatzinfo 200+; 6 Tables, black and white; 229 Illustrations, black and white
Verlagsort Bosa Roca
Sprache englisch
Maße 178 x 254 mm
Gewicht 956 g
Themenwelt Technik Nachrichtentechnik
ISBN-10 1-4398-8303-3 / 1439883033
ISBN-13 978-1-4398-8303-7 / 9781439883037
Zustand Neuware
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