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by Jin Wang, Lajos L. Hanzo, Robert G. Maunder, Lie-Liang Yang
Near-Capacity Variable-Length Coding: Regular and EXIT-Chart-Aided Irregular Designs
Cover
Title
Copyright
About the Authors
Other Wiley and IEEE Press Books on Related Topics
Preface
Acknowledgements
Chapter 1: Introduction
1.1 Historical Overview
1.2 Applications of Irregular Variable-Length Coding
1.3 Motivation and Methodology
1.4 Outline of the Book
1.5 Novel Contributions of the Book
Chapter 2: Information Theory Basics
2.1 Issues in Information Theory
2.2 Additive White Gaussian Noise Channel
2.3 Information of a Source
2.4 Average Information of Discrete Memoryless Sources
2.5 Source Coding for a Discrete Memoryless Source
2.6 Entropy of Discrete Sources Exhibiting Memory
2.7 Examples
2.8 Generating Model Sources
2.9 Run-Length Coding for Discrete Sources Exhibiting Memory
2.10 Information Transmission via Discrete Channels
2.11 Capacity of Discrete Channels [216, 223]
2.12 Shannon’s Channel Coding Theorem [220, 228]
2.13 Capacity of Continuous Channels [217, 223]
2.14 Shannon’s Message for Wireless Channels
2.15 Summary and Conclusions
Part I: Regular Concatenated Codes and Their Design
List of Symbols in Part I
Chapter 3: Sources and Source Codes
3.1 Introduction
3.2 Source Models
3.3 Source Codes
3.4 Soft Decoding of Variable-Length Codes
3.5 Summary and Conclusions
Chapter 4: Iterative Source–Channel Decoding
4.1 Concatenated Coding and the Turbo Principle
4.2 SISOAPP Decoders and their EXIT Characteristics
4.3 Iterative Source–Channel Decoding Over AWGN Channels
4.4 Iterative Channel Equalization, Channel Decoding and Source Decoding
4.5 Summary and Conclusions
Chapter 5: Three-Stage Serially Concatenated Turbo Equalization
5.1 Introduction
5.2 Soft-In Soft-Out MMSE Equalization
5.3 Turbo Equalization Using MAP/MMSE Equalizers
5.4 Three-Stage Serially Concatenated Coding and MMSE Equalization
5.5 Approaching the Channel Capacity Using EXIT-Chart Matching and IRCCs
5.6 Rate Optimization of Serially Concatenated Codes
5.7 Joint Source-Channel Turbo Equalization Revisited
5.8 Summary and Conclusions
Part II: Irregular Concatenated VLCs and Their Design
List of Symbols in Part II
Chapter 6: Irregular Variable-Length Codes for Joint Source and Channel Coding
6.1 Introduction
6.2 Over view of Proposed Scheme
6.3 Transmission Frame Structure
6.4 VDVQ/RVLC Encoding
6.5 APP SISO VDVQ/RVLC Decoding
6.6 Simulation Results
6.7 Summary and Conclusions
Chapter 7: Irregular Variable-Length Codes for EXIT-Chart Matching
7.1 Introduction
7.2 Overview of Proposed Schemes
7.3 Parameter Design for the Proposed Schemes
7.4 Simulation Results
7.5 Summary and Conclusions
Chapter 8: Genetic Algorithm-Aided Design of Irregular Variable-Length Coding Components
8.1 Introduction
8.2 The Free Distance Metric
8.3 Overview of the Proposed Genetic Algorithm
8.4 Overview of Proposed Scheme
8.5 Parameter Design for the Proposed Scheme
8.6 Simulation Results
8.7 Summary and Conclusions
Chapter 9: Joint EXIT-Chart Matching of Irregular Variable-Length Coding and Irregular Unity-Rate Coding
9.1 Introduction
9.2 Modifications of the EXIT-Chart Matching Algorithm
9.3 Joint EXIT-Chart Matching
9.4 Overview of the Transmission Scheme Considered
9.5 System Parameter Design
9.6 Simulation Results
9.7 Summary and Conclusions
Part III: Applications of VLCs
Chapter 10: Iteratively Decoded VLC Space–Time Coded Modulation: Code Construction and Convergence Analysis
10.1 Introduction
10.2 Space–Time Coding Overview
10.3 Two-Dimensional VLC Design
10.4 VL-STCM Scheme
10.5 VL-STCM-ID Scheme
10.6 Convergence Analysis
10.7 Simulation Results
10.8 Non-Binary VL-STCM
10.9 Conclusions
Chapter 11: Iterative Detection of Three-Stage Concatenated IrVLC FFH-MFSK
11.1 Introduction
11.2 System Overview
11.3 Iterative Decoding
11.4 System Parameter Design and Results
11.5 Conclusion
Chapter 12: Conclusions and Future Research
12.1 Chapter 1: Introduction
12.2 Chapter2:Information Theory Basics
12.3 Chapter3: Sources and Source Codes
12.4 Chapter4: Iterative Source–Channel Decoding
12.5 Chapter5: Three-Stage Serially Concatenated Turbo Equalization
12.6 Chapter 6: Joint Source and Channel Coding
12.7 Chapters 7–9: EXIT-Chart Matching
12.8 Chapter 8: GA-Aided Design of Irregular VLC Components
12.9 Chapter 9: Joint EXIT-Chart Matching of IRVLCs and IRURCs
12.10 Chapter 10: Iteratively Decoded VLC Space–Time Coded Modulation
12.11 Chapter 11: Iterative Detection of Three-Stage Concatenated IrVLCFFH-MFSK
12.12 Future Work
12.13 Closing Remarks
Appendix A: VLC Construction Algorithms
A.1 First RVLC Construction Algorithm
A.2 Second RVLC Construction Algorithm
A.3 Greedy Algorithm and Majority Voting Algorithm (MVA)
Appendix B: SISO VLC Decoder
Appendix C: APP Channel Equalization
Bibliography
Glossary
Subject Index
Author Index
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