Digital communications 1 : source and channel coding / Didier Le Ruyet, Mylène Pischella ; series editor, Pierre-Noël Favennec.

Format:

Book

Author/Creator:

Le Ruyet, Didier, author.

Pischella, Mylène, author.

Contributor:

Favennec, Pierre-Noël, editor.

Series:

Networks and telecommunications series.

Networks and Telecommunications Series

Language:

English

Subjects (All):

Digital communications.

Coding theory.

Physical Description:

1 online resource (312 p.)

Edition:

1st edition

Other Title:

Source and channel coding

Place of Publication:

London, England ; Hoboken, New Jersey : ISTE : Wiley, 2015.

System Details:

text file

Summary:

The communication chain is constituted by a source and a recipient, separated by a transmission channel which may represent a portion of cable, an optical fiber, a radio channel, or a satellite link. Whatever the channel, the processing blocks implemented in the communication chain have the same foundation. This book aims to itemize. In this first volume, after having presented the base of the information theory, we will study the source coding techniques with and without loss. Then we analyze the correcting codes for block errors, convutional and concatenated used in current systems.

Contents:

""Table of Contents""; ""Title""; ""Copyright""; ""Preface""; ""List of Acronyms""; ""Notations""; ""Introduction""; ""1: Introduction to Information Theory""; ""1.1. Introduction""; ""1.2. Review of probabilities""; ""1.3. Entropy and mutual information""; ""1.4. Lossless source coding theorems""; ""1.5. Theorem for lossy source coding""; ""1.6. Transmission channel models""; ""1.7. Capacity of a transmission channel""; ""1.8. Exercises""; ""2: Source Coding""; ""2.1. Introduction""; ""2.2. Algorithms for lossless source coding""; ""2.3. Sampling and quantization""

""2.4. Coding techniques for analog sources with memory""""2.5. Application to the image and sound compression""; ""2.6. Exercises""; ""3: Linear Block Codes""; ""3.1. Introduction""; ""3.2. Finite fields""; ""3.3. Linear block codes""; ""3.4. Decoding of binary linear block codes""; ""3.5. Performances of linear block codes""; ""3.6. Cyclic codes""; ""3.7. Applications""; ""3.8. Exercises""; ""4: Convolutional Codes""; ""4.1. Introduction""; ""4.2. Mathematical representations and hardware structures""; ""4.3. Graphical representation of the convolutional codes""

""4.4. Free distance and transfer function of convolutional codes""""4.5. Viterbi's algorithm for the decoding of convolutional codes""; ""4.6. Punctured convolutional codes""; ""4.7. Applications""; ""4.8. Exercises""; ""5: Concatenated Codes and Iterative Decoding""; ""5.1. Introduction""; ""5.2. Soft input soft output decoding""; ""5.3. LDPC codes""; ""5.4. Parallel concatenated convolutional codes or turbo codes""; ""5.5. Other classes of concatenated codes""; ""5.6. Exercises""; ""Appendices""; ""Appendix A: Proof of the Channel Capacity of the Additive White Gaussian Noise Channel""

""Appendix B: Calculation of the Weight Enumerator Function IRWEF of a Systematic Recursive Convolutional Encoder""""Bibliography""; ""Index""; ""Summary of Volume 2: Digital Communications 2""; ""End User License Agreement""

Notes:

Description based upon print version of record.

Includes bibliographical references and index.

Description based on online resource; title from PDF title page (ebrary, viewed November 6, 2015).

ISBN:

9781119232445

1119232449

9781119232438

1119232430

9781119232421

1119232422

OCLC:

923853407