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- Wiley
More About This Title Error Correcting Coding and Security for DataNetworks - Analysis of the Superchannel Concept
English
- Discusses the problem of reconciling coding applied to different layers using a superchannel approach
- Includes thorough coverage of all the key codes: linear block codes, Hamming, BCH and Reed-Solomon codes, LDPC codes decoding, as well as convolutional, turbo and iterative coding
- Considers new areas of application of error correcting codes such as transport coding, code-based cryptosystems and coding for image compression
- Demonstrates how to use error correcting coding to control such important data characteristics as mean message delay
- Provides theoretical explanations backed up by numerous real-world examples and practical recommendations
- Features a companion website containing additional research results including new constructions of LDPC codes, joint error-control coding and synchronization, Reed-Muller codes and their list decoding
By progressing from theory through to practical problem solving, this resource contains invaluable advice for researchers, postgraduate students, engineers and computer scientists interested in data communications and applications of coding theory.
English
1 Problems Facing Error Control Coding in Data Networks.
1.1 International Recommendations on Using Error Control Coding at Different Network Layers.
1.2 Classification of Problems on Coding in Networks.
2 Block Codes.
2.1 Main Definitions.
2.2 Algebraic Structures.
2.3 Linear Block Codes.
2.4 Cyclic Codes.
2.5 Bounds on Minimum Distance.
3 General Methods of Decoding of Linear Codes.
3.1 Minimum Distance Decoding.
3.2 Information Set Decoding.
3.3 A Supercode Decoding Algorithm.
3.4 The Complexity of Decoding in the Channel with Independent Errors.
4 Codes with Algebraic Decoding.
4.1 Hamming Codes.
4.2 Reed-Solomon Codes.
4.3 BCH Codes.
4.4 Decoding of BCH Codes.
4.5 The Sudan Algorithm and its Extensions.
5 Decoding of LDPC Codes.
5.1 Low-Density Parity-Check Codes.
5.2 LDPC Constructions.
5.3 Estimating the Minimum Distance of EG-LDPC Codes.
5.4 Burst-Error-Correcting LDPC Codes.
5.5 Decoding Schemes of LDPC Codes.
5.6 Simulation Results in AWGN.
Appendix 5.A Euclidean Geometries.
6 Convolutional Codes and Turbo-Codes.
6.1 Convolutional Codes Representation and Encoding.
6.2 Viterbi Decoding Algorithm.
6.3 List Decoding.
6.4 Sequential Decoding.
6.5 Parallel-Concatenated Convolutional Codes and Soft Input Soft Output Decoding.
6.6 SISO Decoding Algorithms.
7 Coding of Messages at the Transport Layer of the Data Network.
7.1 Decreasing the Message Delay with the help of Transport Coding.
7.2 Transmission of Message during Limited Time.
7.3 Transmission of Priority Messages without using Priority Packets .
7.4 Estimation of the Effectiveness of Transport Coding for the Nonexponential Model of Packet Delay.
8 Providing Security of Data in a Network with the Help of Coding Methods.
8.1 Public-Key Cryptography.
8.2 Codebased Cryptosystems: McEliece and Niederreiter.
8.3 Cryptosystems Based on Full Decoding.
8.4 Further Development of Codebased Cryptosystems.
8.5 Codebased Cryptosystems and RSA: Comparison and Perspectives.
8.6 Codebased Signature.
9 Reconciliation of Coding at Different Layers of a Network.
9.1 Transport Coding in a Network with Unreliable Channels.
9.2 Reconciliation of Channel and Transport Coding.
9.3 Use of Tornado Codes for Reconciliation of Channel and Transport Coding.
9.4 Development of Coding Methods at the Presentation Layer.
9.5 Reconciliation of Coding at Neighbour Layers of a Network.
Index.
