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Overview
Error-controlled coding techniques are used to detect and/or correct errors that occur in the message transmission in a digital communications system. Wireless personal channels used by mobile communications systems and storage systems for digital multimedia data all require the implementation of error control coding methods. Demonstrating the role of coding in communication and data storage system design, this text illustrates the correct use of codes and the selection of the right code parameters. Relevant decoding techniques and their implementation are discussed in detail. Providing communication systems engineers and students with guidance in the application of error-control coding, this book emphasizes the fundamental concepts of coding theory while minimising the use of mathematical tools.
* Reader-friendly approach ti coding in communication systems providing examples of encoding and decoding, information theory and criteria for code selection
* Thorogh descriptions of relevant application, including telephony on satellite links, GSM, UMTS and multimedia standards, CD, DVD and MPEG
* Provides coverage of the fundamentals of coding and the applications of codes to the design of real error control systems
* End of chapter problems to test and develop understanding
Synopsis
Error Control Coding: From Theory to Practice provides a concise introduction to basic coding techniques and their application. The fundamental concepts of coding theory are explained using simple examples with minimum use of complex mathematical tools. The selection of appropriate codes and the design of decoders are discussed.
Bridging the gap between digital communications and information theory, this accessible approach will appeal to students and practising engineers alike.
The clear presentation and practical emphasis make this book an excellent tool for both communications and electronic engineering students. Practitioners new to the field will find this text an essential guide to coding.
Features include:
* End of chapter problems to test and develop the readers understanding of the most popular codes and decoding methods
* Finite field arithematic and algebraic decoding methods for BCH and Reed-Solomon codes
* Detailed coverage of Viterbi decoding and related implementation issues
* Turbo codes and related code types, including Gallager codes and turbo product codes
* Practical examples of MAP and SOVA decoding for turbo codes
Booknews
This introduction to basic coding techniques uses examples to explain fundamental concepts and their applications. Complex mathematics are kept to a minimum. Drawing from digital communications and information theory, the book emphasizes the selection of appropriate codes and the design of decoders. Chapters cover convolution codes, linear block codes, cyclic codes, finite field arithmetic, BCH codes, Reed Solomon codes, performance calculations for block codes, multistage coding, and iterative coding. Sweeney teaches at the University of Surrey. Annotation c. Book News, Inc., Portland, OR (booknews.com)