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1.

図書
図書
1. Turbo coding, turbo equalisation and space-time coding : for transmission over fading channels
L. Hanzo, T.H. Liew, B.L. Yeap
出版情報: [S.l.] : IEEE Press , Chichester, England : Wiley, c2002  xvii, 748 p. ; 26 cm
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Acknowledgments
Historical Perspective, Motivation and Outline
Convolutional and Block Coding / I:
Convolutional Channel Coding
Block Coding
Soft Decoding and Performance of BCH Codes
Turbo Convolutional and Turbo Block Coding / II:
Turbo Convolutional Coding
The Super-Trellis Structure of Convolutional Turbo Codes
Turbo BCH Coding
Redundant Residue Number System Codes
Coded Modulation: TCM, TTCM, BICM, BICM-ID / III:
Coded Modulation Theory and Performance
Space-time Block Codes / IV Space-Time Block and Space-Time Trellis Coding:
Space-Time Trellis Codes
Turbo-coded Adaptive QAM versus Space-time Trellis Coding
Turbo Equalisation / V:
Turbo-coded Partial-response Modulation
Turbo Equalisation for Partial-response Systems
Turbo Equalisation Performance Bound
Comparative Study of Turbo Equalisers
Reduced-complexity Turbo Equaliser
Turbo Equalisation for Space-time Trellis-coded Systems
Summary and Conclusions
Bibliography
Subject Index
Author Index
About the Authors
Other Related Wiley and IEEE Press Books
Acknowledgments
Historical Perspective, Motivation and Outline
Convolutional and Block Coding / I:
2.

図書
図書
2. Turbo coding, turbo equalisation and space-time coding : exit-chart-aided near-capacity designs for wireless channels. 2nd ed (: cloth)
L. Hanzo ... [et al.]
出版情報: [Piscataway, N.J.?] : IEEE , Chichester, U.K. : Wiley, 2011  xviii, 654 p. ; 25 cm
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About the Authors
Other Related Wiley and IEEE Press Books
Acknowledgments
Historical Perspective, Motivation and Outline / 1:
A Historical Perspective on Channel Coding / 1.1:
Motivation of the Book / 1.2:
Organisation of the Book / 1.3:
Novel Contributions of the Book / 1.4:
Convolutional Channel Coding / 2:
Brief Channel Coding History / 2.1:
Convolutional Encoding / 2.2:
State and Trellis Transitions / 2.3:
The Viterbi Algorithm / 2.4:
Summary and Conclusions / 2.5:
Soft Decoding and Performance of BCH Codes / 3:
Introduction / 3.1:
BCH codes / 3.2:
Trellis Decoding / 3.3:
Soft input Algebraic Decoding / 3.4:
Turbo Convolutional and Turbo Block Coding / 3.5:
Turbo Convolutional Coding / 4:
Turbo Encoder / 4.1:
Turbo Decoder / 4.3:
TurboâÇôcoded BPSK Performance over Gaussian Channels / 4.4:
Turbo Coding Performance over Rayleigh Channels / 4.5:
Turbo BCH Coding / 4.6:
Turbo Decoding Example / 5.1:
MAP Algorithm for Extended BCH codes / 5.5:
Simulation Results / 5.6:
SpaceâÇôTime Block and SpaceâÇôTime Trellis Coding / 5.7:
SpaceâÇôTime Block Codes / 6:
Classification of Smart Antennas / 6.1:
Introduction to SpaceâÇôtime Coding / 6.2:
Background / 6.3:
SpaceâÇôtime Block Codes / 6.4:
ChannelâÇôcoded SpaceâÇôtime Block Codes / 6.5:
SpaceâÇôTime Trellis Codes / 6.7:
SpaceâÇôtime Trellis Codes / 7.1:
SpaceâÇôtimeâÇôcoded Transmission over Wideband Channels / 7.3:
SpaceâÇôtimeâÇôcoded Adaptive Modulation for OFDM / 7.4:
TurboâÇôcoded Adaptive QAM versus SpaceâÇôtime Trellis Coding / 7.6:
System Overview / 8.1:
Simulation Parameters / 8.3:
Turbo Equalisation / 8.4:
TurboâÇôcoded PartialâÇôresponse Modulation / 9:
Motivation / 9.1:
The Mobile Radio Channel / 9.2:
Continuous Phase Modulation Theory / 9.3:
Digital Frequency Modulation Systems / 9.4:
State Representation / 9.5:
Spectral Performance / 9.6:
Construction of TrellisâÇôbased Equaliser States / 9.7:
SoftâÇôoutput GMSK Equaliser and Turbo Coding / 9.8:
Turbo Equalisation for PartialâÇôResponse Systems / 9.9:
Principle of Turbo Equalisation Using Single/Multiple Decoder(s) / 10.1:
SoftâÇôin/SoftâÇôout Equaliser for Turbo Equalisation / 10.3:
SoftâÇôin/SoftâÇôout Decoder for Turbo Equalisation / 10.4:
Turbo Equalisation Example / 10.5:
Summary of Turbo Equalisation / 10.6:
Performance of Coded GMSK Systems using Turbo Equalisation / 10.7:
Discussion of Results / 10.8:
Comparative Study of Turbo Equalisers / 10.9:
System overview / 11.1:
Results and Discussion / 11.3:
NonâÇôiterative Joint Channel Equalisation and Decoding / 11.5:
ReducedâÇôcomplexity Turbo Equaliser / 11.6:
Complexity of the Multilevel FullâÇôresponse Turbo Equaliser / 12.1:
System Model / 12.3:
InâÇôphase/QuadratureâÇôphase Equaliser Principle / 12.4:
Overview of the ReducedâÇôcomplexity Turbo Equaliser / 12.5:
Complexity of the InâÇôphase/QuadratureâÇôphase Turbo Equaliser / 12.6:
System Parameters / 12.7:
System Performance / 12.8:
Turbo Equalisation for SpaceâÇôtime TrellisâÇôcoded Systems / 12.9:
Principle of InâÇôphase/QuadratureâÇôphase Turbo Equalisation / 13.1:
Complexity Analysis / 13.4:
Coded and SpaceâÇôTimeâÇôCoded AdaptiveModulation: TCM, TTCM, BICM, BICMâÇôID and MLC / 13.5:
Coded Modulation Theory and Performance 413 / 14:
TrellisâÇôCoded Modulation / 14.1:
The SymbolâÇôbased MAP Algorithm / 14.3:
Turbo TrellisâÇôcoded Modulation / 14.4:
BitâÇôinterleaved Coded Modulation / 14.5:
BitâÇôInterleaved Coded Modulation Using Iterative Decoding / 14.6:
Coded Modulation Performance / 14.7:
Multilevel Coding Theory / 14.8:
Multilevel Coding / 15.1:
BitâÇôInterleaved Coded Modulation / 15.3:
Conclusion / 15.4:
MLC Design Using EXIT Analysis 503 / 16:
Comparative Study of Coded Modulation Schemes / 16.1:
EXIT Chart Analysis / 16.3:
PrecoderâÇôAided MLC / 16.4:
Chapter Conclusions / 16.5:
Space Time Sphere Packing AidedMLC/BICMDesign / 17:
Space Time Block Code / 17.1:
Orthogonal G2 Design Using Sphere Packing / 17.3:
Iterative Demapping for Sphere Packing / 17.4:
STBCâÇôSPâÇôMLC / 17.5:
STBCâÇôSPâÇôBICM / 17.6:
MLC/BICMSchemes for theWireless Internet / 17.7:
Multilevel Generalised LowâÇôDensity ParityâÇôCheck Codes / 18.1:
An Iterative Stopping Criterion for MLCâÇôGLDPCs / 18.3:
Coding for the Wireless Internet / 18.4:
LTâÇôBICMâÇôID Using LLR Packet Reliability Estimation / 18.5:
NearâÇôCapacity Irregular BICMâÇôID Design / 18.6:
Irregular BitâÇôInterleaved Coded Modulation Schemes / 19.1:
Irregular Components / 19.3:
Summary of the Book / 19.5:
Future Work / 20.2:
Concluding Remarks / 20.3:
Bibliography
Subject Index
About the Authors
Other Related Wiley and IEEE Press Books
Acknowledgments
3.

図書
図書
3. Near-capacity variable-length coding : regular and exit-chart aided irregular designs
L. Hanzo ... [et al.]
出版情報: Chichester : Wiley, c2011  xxii, 494 p. ; 26 cm
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About the Authors
Other Wiley and IEEE Press Books on Related Topics
Acknowledgments
Preface
Introduction / Chapter 1:
Historical Overview / 1.1:
Applications of Irregular Variable Length Coding / 1.2:
Motivation and Methodology / 1.3:
Outline of the Book / 1.4:
Novel Contributions of the Book / 1.5:
Information Theory Basics / Chapter 2:
Issues in Information Theory / 2.1:
AdditiveWhite Gaussian Noise Channel / 2.2:
Information of a Source / 2.3:
Average Information of Discrete Memoryless Sources / 2.4:
Source Coding for a Discrete Memoryless Source / 2.5:
Entropy of Discrete Sources Exhibiting Memory / 2.6:
Examples / 2.7:
Generating Model Sources / 2.8:
Run-Length Coding for Discrete Sources Exhibiting Memory / 2.9:
Information Transmission via Discrete Channels / 2.10:
Capacity of Discrete Channels / 2.11:
Shannon's Channel Coding Theorem / 2.12:
Capacity of Continuous Channels / 2.13:
Shannon's Message for Wireless Channels / 2.14:
Summary and Conclusions / 2.15:
I Regular Concatenated Codes and Their Design
List of Symbols in Part I
Sources and Source Codes / Chapter 3:
Source Models / 3.1:
Source Codes / 3.3:
Soft-Decoding of Variable Length Codes / 3.4:
Iterative Source/Channel Decoding / 3.5:
Concatenated Coding and the Turbo Principle / 4.1:
SISO APP Decoders and Their EXIT Characteristics / 4.2:
Iterative Source/Channel Decoding Over AWGN Channels / 4.3:
Iterative Channel Equalisation, Channel Decoding and Source Decoding / 4.4:
Three-Stage Serially Concatenated Turbo Equalisation / 4.5:
Soft-in/Soft-outMMSE Equalisation / 5.1:
Turbo Equalisation Using MAP/MMSE Equalisers / 5.3:
Three-stage serially concatenated coding and MMSE equalisation / 5.4:
Approaching the Channel Capacity Using EXIT-Chart Matching and IRCCs / 5.5:
Rate-Optimisation of Serially Concatenated Codes / 5.6:
Joint Source-Channel Turbo Equalisation Revisited / 5.7:
Irregular Concatenated VLCs and Their Design / 5.8:
List of Symbols in Part II
Irregular Variable Length Codes for Joint Source and Channel Coding / Chapter 6:
Overview of proposed scheme / 6.1:
Transmission frame structure / 6.3:
VDVQ/RVLC encoding / 6.4:
APP SISO VDVQ/RVLC decoding / 6.5:
Simulation results / 6.6:
Irregular Variable Length Codes for EXIT Chart Matching / 6.7:
Overview of proposed schemes / 7.1:
Parameter design for the proposed schemes / 7.3:
Genetic Algorithm Aided Design of Irregular Variable Length Coding Components / 7.4:
The free distance metric / 8.1:
Overview of the proposed genetic algorithm / 8.3:
Parameter design for the proposed scheme / 8.4:
Joint EXIT Chart Matching of Irregular Variable Length Coding and Irregular / 8.6:
Unity Rate Coding
Modifications of the EXIT chart matching algorithm / 9.1:
Joint EXIT chart matching / 9.3:
Overview of the transmission scheme considered / 9.4:
System parameter design / 9.5:
Applications of VLCs / 9.6:
Iteratively Decoded VLC Space-Time Coded Modulation / Chapter 10:
Space Time Coding Overview / 10.1:
Two-Dimensional VLC Design / 10.3:
VL-STCM Scheme / 10.4:
VL-STCM-ID Scheme / 10.5:
Convergence Analysis / 10.6:
Conclusions / 10.7:
Iterative Detection of Three-Stage Concatenated IrVLC FFH-MFSK / Chapter 11:
System Overview / 11.1:
Iterative decoding / 11.3:
System parameter design and Results / 11.4:
Conclusion / 11.5:
Conclusions and Future Research / Chapter 12:
Chapter 1: Introduction / 12.1:
Chapter 2: Information Theory Basics / 12.2:
Chapter 3: Sources and Source Codes / 12.3:
Chapter 4: Iterative Source/Channel Decoding / 12.4:
Chapter 5: Three-Stage Serially Concatenated Turbo Equalisation / 12.5:
Chapter 6: Joint source and channel coding / 12.6:
Chapters 7 - 9: EXIT chart matching / 12.7:
Chapter 8: GA-aided Design of Irregular VLC Components / 12.8:
Chapter 9: Joint EXIT Chart Matching of IRVLCs and IRURCs / 12.9:
Chapter 10: Iteratively Decoded VLC Space-Time Coded Modulation / 12.10:
Chapter 11: Iterative Detection of Three-Stage Concatenated IrVLC FFHMFSK / 12.11:
Future work / 12.12:
Closing remarks / 12.13:
VLC Construction Algorithms / Appendix A:
RVLC Construction Algorithm A / A.1:
RVLC Construction Algorithm B / A.2:
Greedy Algorithm (GA) and Majority Voting Algorithm (MVA) / A.3:
SISO VLC Decoder / Appendix B:
APP Channel Equalisation / Appendix C:
Bibliography
Glossary
Subject Index
Author Index
About the Authors
Other Wiley and IEEE Press Books on Related Topics
Acknowledgments
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