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本帖最后由 fwbnick 于 2014-12-13 16:43 编辑
Channel Coding Theory, Algorithms, and Applications
Academic Press Library in Mobile and Wireless
Communications 2014
By David Declercq , Marc Fossorier , Ezio Biglieri
In Chapter 1, the original turbo codes are first reviewed, with emphasis on the
concepts associated with the initial design, put in a historical perspective, and an
analysis of the performance based on constituents of a turbo code. Finally, the industrial
impacts of the turbo codes are presented.
Chapter 2 covers design, analysis, construction, and performance of the turbolike
codes. This chapter also describes the iterative decoding algorithms for these
codes, with many simulation results provided.
Chapter 3 introduces LDPC codes and their constructions. It first describes the
important parameters for these codes based on an asymptotic analysis. Then constructions
of practical importance for implementation are presented, with a final
description of LDPC codes already in standards.
Chapter 4 first presents an overall survey of LDPC decoders, and then provides a
more detailed insight into some of the most widely used decoders, with emphasis on
their implementation.
In Chapter 5, one of the most important tools to design iteratively decodable
codes, namely, the extrinsic information transfer (EXIT) method, is presented from a
practical point of view. It is shown how to apply it to design several classes of iteratively
decodable codes.
Chapter 6 presents a study of the causes of decoding failures on various channels
under different iterative decoding algorithms.
In Chapter 7, practical considerations of FEC such as puncturing with rate compatibility
and unequal error protection are presented for iteratively decodable codes.
Chapter 8 presents the concept of rateless coding and the main categories of rateless
codes that have been proposed for various types of channel. Applications for
which rateless coding can be used are then discussed.
Chapter 9 surveys distributed channel coding techniques for cooperative communications,
with emphasis on decode-and-forward relaying. Several classes of codes
are discussed.
Chapter 10 introduces the important aspects of space–time block codes (STBCs)
related to their encoding, decoding, rate diversity, and diversity-multiplexing tradeoffs.
Many construction techniques for STBCs are presented.
Chapter 11 considers coded modulation, which jointly combines coding and modulation
to increase bandwidth efficiency. Both original designs and recent designs
based on iteratively decodable codes are presented.
Chapter 12 provides an overview of joint source-channel coding and decoding,
as well as of the related problem of joint protocol-channel decoding techniques. The
impact of these techniques in actual systems is finally discussed.
Chapter 13 gives a systematic review of the main achievements in the implementation
of iterative channel decoders. Solutions required to achieve specific design
objectives, such as low complexity, high throughput, and low energy, are discussed.
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