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Algebraic and Stochastic Coding Theory

Dave K. Kythe | Prem K. Kythe
€210.80
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A01=Dave K. Kythe
A01=Prem K. Kythe
advanced probability models
Author_Dave K. Kythe
Author_Prem K. Kythe
BCH Code
BCH codes
belief propagation
Category=GPJ
Coset Leader
D5 D6 D7 D8 D9
Data Bits
data transmission
discrete Fourier transform
distributions
Encoding Symbol
eq_isMigrated=1
eq_isMigrated=2
eq_nobargain
error correction
error detection and correction
finite field applications
Fountain Code
Fountain Family of codes
Galois field theory
Generator Polynomial
Golay codes
Hadamard Matrices
Hamming Code
Hamming codes
Hamming Distance
Input Symbols
Irreducible Polynomial
LDPC
LDPC codes
Linear Code
linear codes
Low Density Parity Check Codes
matrix coding techniques
MDS Code
Minimal Polynomial
network data reliability
Parity Bits
Parity Check Bits
Parity Check Matrix
Raptor Codes
RS Code
signal processing codes
stochastic coding theory for researchers
stochastic processes
Tanner Graphs
Tornado Codes

Product details

  • ISBN 9781439881811
  • Weight: 839g
  • Dimensions: 156 x 234mm
  • Publication Date: 05 Mar 2012
  • Publisher: Taylor & Francis Inc
  • Publication City/Country: US
  • Product Form: Hardback
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Description

Using a simple yet rigorous approach, Algebraic and Stochastic Coding Theory makes the subject of coding theory easy to understand for readers with a thorough knowledge of digital arithmetic, Boolean and modern algebra, and probability theory. It explains the underlying principles of coding theory and offers a clear, detailed description of each code. More advanced readers will appreciate its coverage of recent developments in coding theory and stochastic processes.

After a brief review of coding history and Boolean algebra, the book introduces linear codes, including Hamming and Golay codes. It then examines codes based on the Galois field theory as well as their application in BCH and especially the Reed–Solomon codes that have been used for error correction of data transmissions in space missions.

The major outlook in coding theory seems to be geared toward stochastic processes, and this book takes a bold step in this direction. As research focuses on error correction and recovery of erasures, the book discusses belief propagation and distributions. It examines the low-density parity-check and erasure codes that have opened up new approaches to improve wide-area network data transmission. It also describes modern codes, such as the Luby transform and Raptor codes, that are enabling new directions in high-speed transmission of very large data to multiple users.

This robust, self-contained text fully explains coding problems, illustrating them with more than 200 examples. Combining theory and computational techniques, it will appeal not only to students but also to industry professionals, researchers, and academics in areas such as coding theory and signal and image processing.

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