1.

Record Nr.

UNINA9910877326203321

Autore

Schlegel Christian

Titolo

Trellis and turbo coding [[electronic resource] /] / Christian B. Schlegel, Lance C. PeĢrez

Pubbl/distr/stampa

Piscataway, NJ, : IEEE Press

Hoboken, NJ, : Wiley-Interscience, c2004

ISBN

1-280-34600-0

9786610346004

0-471-66783-8

1-60119-385-8

0-471-66784-6

Descrizione fisica

1 online resource (402 p.)

Collana

IEEE Press series on digital & mobile communication

Altri autori (Persone)

PerezLance

Disciplina

621.382

621.3822

Soggetti

Error-correcting codes (Information theory)

Trellis-coded modulation

Digital communications

Coding theory

Lingua di pubblicazione

Inglese

Formato

Materiale a stampa

Livello bibliografico

Monografia

Note generali

Description based upon print version of record.

Nota di bibliografia

Includes bibliographical references and index.

Nota di contenuto

TRELLIS AND TURBO CODING; CONTENTS; Preface; 1 Introduction; 1.1 Modern Digital Communications; 1.2 The Rise of Digital Communications; 1.3 Communication Systems; 1.4 Error Control Coding; 1.5 Bandwidth, Power, and Complexity; 1.6 A Brief History-The Drive Toward Capacity; Bibliography; 2 Communication Theory Basics; 2.1 The Probabilistic Viewpoint; 2.2 Vector Communication Channels; 2.3 Optimum Receivers; 2.4 Matched Filters; 2.5 Message Sequences; 2.6 The Complex Equivalent Baseband Model; 2.7 Spectral Behavior; 2.8 Multiple Antenna Channels (MIMO Channels); Appendix 2.A; Bibliography

3 Trellis-Coded Modulation3.1 An Introductory Example; 3.2 Group-Trellis Codes; 3.3 The Mapping Function; 3.4 Construction of Codes; 3.5 Lattices; 3.6 Lattice Formulation of Trellis Codes; 3.7 Rotational Invariance; 3.8 V.fast; 3.9 Geometric Uniformity; 3.10 Historical Notes;



Bibliography; 4 Convolutional Codes; 4.1 Convolutional Codes as Binary Trellis Codes; 4.2 Codes and Encoders; 4.3 Fundamental Theorems from Basic Algebra; 4.4 Systematic Encoders; 4.5 Systematic Feedback and Recursive Systematic Encoder Realizations; 4.6 Maximum Free-Distance Convolutional Codes; Appendix 4.A

Bibliography5 Link to Block Codes; 5.1 Preliminaries; 5.2 Block Code Primer; 5.3 Trellis Description of Block Codes; 5.4 Minimal Trellises; 5.5 Minimum-Span Generator Matrices; 5.6 Construction of the PC Trellis; 5.7 Tail-Biting Trellises; 5.8 The Squaring Construction and the Trellis of Lattices; 5.9 The Construction of Reed-Muller Codes; 5.10 A Decoding Example; Bibliography; 6 Performance Bounds; 6.1 Error Analysis; 6.2 The Error Event Probability; 6.3 Finite-State Machine Description of Error Events; 6.4 The Transfer Function Bound; 6.5 Reduction Theorems; 6.6 Random Coding Bounds

Appendix 6.AAppendix 6.B; Bibliography; 7 Decoding Strategies; 7.1 Background and Introduction; 7.2 Tree Decoders; 7.3 The Stack Algorithm; 7.4 The Fano Algorithm; 7.5 The M-Algorithm; 7.6 Maximum Likelihood Decoding; 7.7 A Posteriori Probability Symbol Decoding; 7.8 Log-APP and Approximations; 7.9 Random Coding Analysis of Sequential Decoding; 7.10 Some Final Remarks; Appendix 7.A; Bibliography; 8 Factor Graphs; 8.1 Factor Graphs: Introduction and History; 8.2 Graphical Function Representation; 8.3 The Sum-Product Algorithm; 8.4 Iterative Probability Propagation

8.5 The Factor Graph of Trellises8.6 Exactness of the Sum-Product Algorithm for Trees; 8.7 Binary Factor Graphs; Variable Node Messages; Parity-Check Node Messages; Log Likelihood Ratio (LLR); LLR Variable Node Messages; LLR Check Node Messages; 8.8 Normal Factor Graphs; Symbol Variable Replication; State Variable Replication; Bibliography; 9 Low-Density Parity-Check Codes; 9.1 Introduction; 9.2 LDPC Codes and Graphs; 9.3 Message Passing Decoding Algorithms; 9.4 Density Evolution; 9.5 Density Evolution for Binary Erasure Channels; 9.6 Binary Symmetric Channels and the Gallager Algorithms

9.7 The AWGN Channel

Sommario/riassunto

Trellis and turbo coding are used to compress and clean communications signals to allow greater bandwidth and clarityPresents the basics, theory, and applications of these techniques with a focus on potential standard state-of-the art methods in the futureProvides a classic basis for anyone who works in the area of digital communications A Wiley-IEEE Press Publication