Fundamentals of codes, graphs and iterative decoding

Written for professionals and academicians working in the field of communications, this work explains how to exploit simple structural descriptions when designing codes. After an overview of Shannon theory and complexity theory, chapters overview classical error control coding, with an introduction

Fundamentals of Codes, Graphs, and Iterative Decoding is an explanation of how to introduce local connectivity, and how to exploit simple structural descriptions. Chapter 1 provides an overview of Shannon theory and the basic tools of complexity theory, communication theory, and bounds on code const

<p><em>Constrained Coding and Soft Iterative Decoding</em> is the first work to combine the issues of constrained coding and soft iterative decoding (e.g., turbo and LDPC codes) from a unified point of view. Since constrained coding is widely used in magnetic and optical storage, it is necessary to

This new edition has been extensively revised to reflect the progress in error control coding over the past few years. Over 60% of the material has been completely reworked, and 30% of the material is original.<br /> <ul> <li>Convolutional, turbo, and low density parity-check (LDPC) coding and polar

"Fundamentals of Mathematics" is a series of 7 books, which are designed to provide comprehensive study material on a specific area in mathematics. It is an ideal companion for students who would like to master a particular subject area based on their individual requirements. All books in this serie