Verfügbarkeit: Joint source-channel coding of discrete-time signals with continuous amplitudes /

Joint source-channel coding of discrete-time signals with continuous amplitudes /:

This book provides the first comprehensive and easy-to-read discussion of joint source-channel encoding and decoding for source signals with continuous amplitudes. It is a state-of-the-art presentation of this exciting, thriving field of research, making pioneering contributions to the new concept o...

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1. Verfasser:	Goertz, Norbert
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	London : Singapore ; Hackensack, NJ : Imperial College Press ; Distributed by World Scientific Pub., ©2007.
Schriftenreihe:	Communications and signal processing (London, England) ; v. 1.
Schlagworte:	Coding theory. Adaptive signal processing. Traitement adaptatif du signal. COMPUTERS > Information Theory. Adaptive signal processing Coding theory
Online-Zugang:	Volltext
Zusammenfassung:	This book provides the first comprehensive and easy-to-read discussion of joint source-channel encoding and decoding for source signals with continuous amplitudes. It is a state-of-the-art presentation of this exciting, thriving field of research, making pioneering contributions to the new concept of source-adaptive modulation. The book starts with the basic theory and the motivation for a joint realization of source and channel coding. Specialized chapters deal with practically relevant scenarios such as iterative source-channel decoding and its optimization for a given encoder, and also improved encoder designs by channel-adaptive quantization or source-adaptive modulation. Although Information Theory is not the main topic of the book - in fact, the concept of joint source-channel coding is contradictory to the classical system design motivated by a questionable practical interpretation of the separation theorem - this theory still provides the ultimate performance limits for any practical system, whether it uses joint source-channel coding or not. Therefore, the theoretical limits are presented in a self-contained appendix, which is a useful reference also for those not directly interested in the main topic of this book.
Beschreibung:	1 online resource (xii, 194 pages) : illustrations
Bibliographie:	Includes bibliographical references (pages 187-191) and index.
ISBN:	9781860948466 1860948464 1281867608 9781281867605

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245	1	0	\|a Joint source-channel coding of discrete-time signals with continuous amplitudes / \|c Norbert Goertz.
260			\|a London : \|b Imperial College Press ; \|a Singapore ; \|a Hackensack, NJ : \|b Distributed by World Scientific Pub., \|c ©2007.
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490	1		\|a Communications and signal processing ; \|v v. 1
504			\|a Includes bibliographical references (pages 187-191) and index.
505	0		\|a Cover -- Contents -- Preface -- 1. Introduction -- 2. Joint Source-Channel Coding: An Overview -- 2.1 System Model -- 2.1.1 Channel -- 2.1.2 Encoder -- 2.1.3 Decoder -- 2.2 System Distortion -- 2.3 Optimal Decoder for a Given Encoder -- 2.4 Optimal Encoder -- 2.5 Special Cases -- 2.5.1 Preliminary Remarks -- 2.5.2 Gaussian Source and Gaussian Channel -- 2.5.3 Channels with Binary Input: Channel-Optimized Vector Quantization -- 2.6 Practical Approaches to Source-Channel Coding -- 2.6.1 Systems for Multimedia Transmission -- 2.6.2 Separation of Source and Channel Coding -- 2.6.3 Approaches to Joint Source-Channel Decoding -- 2.6.4 Approaches to Joint Source-Channel Encoding -- 3. Joint Source-Channel Decoding -- 3.1 Introduction and System Model -- 3.2 Near Optimum Joint Source-Channel Decoding -- 3.2.1 Specialization and Generalization -- 3.3 Iterative Source-Channel Decoding (ISCD) -- 3.3.1 Principle and Derivation -- 3.3.2 Efficient Implementation of ISCD by L-values -- 3.3.3 Simulation Results for ISCD -- 3.4 Quantizer Bit Mappings for ISCD -- 3.4.1 Basic Considerations -- 3.4.2 Optimization by Binary Switching -- 3.4.3 Simulation Results with Optimized Bit Mappings -- 3.5 Conclusions -- 4. Channel-Adaptive Scaled Vector Quantization -- 4.1 Introduction -- 4.2 Memory and Complexity Issues for Vector Quantization (VQ) and Channel-Optimized VQ -- 4.3 Channel-Adaptive Scaled Vector Quantization -- 4.3.1 Basic Principle -- 4.3.2 Optimization of CASVQ -- 4.3.3 Complexity and Memory Requirements of CASVQ for Transmission over Time-Varying Channels -- 4.4 Simulation Results -- 4.5 Conclusions -- 5. Index Assignments for Multiple Descriptions -- 5.1 Introduction -- 5.2 System Model -- 5.3 Optimal Decoder for a Given Index Assignment -- 5.4 Quality Criterion for the Index Assignments -- 5.5 Optimization of the Index Assignments -- 5.5.1 The Complexity Problem -- 5.5.2 Index Optimization by the Binary Switching Algorithm for a System with a Single Description -- 5.5.3 Binary Switching for Multiple Descriptions -- 5.6 Simulation Results -- 5.7 Conclusions -- 6. Source-Adaptive Modulation -- 6.1 Introduction -- 6.2 Conventional System Model -- 6.2.1 Conventional Hard-Decision Receiver -- 6.2.2 Conventional Soft-Decision Receiver -- 6.3 Principle of Source-Adaptive Modulation (SAM) -- 6.4 SAM for Detection of M-PSK Signal Sets -- 6.4.1 Derivation of the Optimal Solution -- 6.4.2 Test-Point Method -- 6.4.3 Analytical Approximation -- 6.4.4 Simulation Results -- 6.5 SAM for Quadrature Amplitude Modulation -- 6.5.1 Discussion of Potential Signal-Point Locations -- 6.5.2 Simulation Results for SAM with QAM . -- 6.6 Conclusions -- 7. Source-Adaptive Power Allocation -- 7.1 Introduction -- 7.2 System Model -- 7.3 Principle of Source-Adaptive Power Allocation -- 7.4 Conventional Soft-Decision Receiver -- 7.5 Simulation Results -- 7.6 Conclusions -- 8. Concluding Remarks -- Appendix A Theoretical Performance Limits -- A.1 Preliminary Remarks -- A.2 Important Distortion-Rate Functions -- A.2.1 Memoryless Sources -- A.2.2 Comparison with Practical Quantization Schemes -- A.2.3 Gaussian Sources with Memory -- A.3 Capacities of Practically Important Channels -- A.3.1 Binary Symmetric Channel (BSC) -- A.3.2 Binary Erasure Channel (BEC) -- T$1867.
520			\|a This book provides the first comprehensive and easy-to-read discussion of joint source-channel encoding and decoding for source signals with continuous amplitudes. It is a state-of-the-art presentation of this exciting, thriving field of research, making pioneering contributions to the new concept of source-adaptive modulation. The book starts with the basic theory and the motivation for a joint realization of source and channel coding. Specialized chapters deal with practically relevant scenarios such as iterative source-channel decoding and its optimization for a given encoder, and also improved encoder designs by channel-adaptive quantization or source-adaptive modulation. Although Information Theory is not the main topic of the book - in fact, the concept of joint source-channel coding is contradictory to the classical system design motivated by a questionable practical interpretation of the separation theorem - this theory still provides the ultimate performance limits for any practical system, whether it uses joint source-channel coding or not. Therefore, the theoretical limits are presented in a self-contained appendix, which is a useful reference also for those not directly interested in the main topic of this book.
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contents	Cover -- Contents -- Preface -- 1. Introduction -- 2. Joint Source-Channel Coding: An Overview -- 2.1 System Model -- 2.1.1 Channel -- 2.1.2 Encoder -- 2.1.3 Decoder -- 2.2 System Distortion -- 2.3 Optimal Decoder for a Given Encoder -- 2.4 Optimal Encoder -- 2.5 Special Cases -- 2.5.1 Preliminary Remarks -- 2.5.2 Gaussian Source and Gaussian Channel -- 2.5.3 Channels with Binary Input: Channel-Optimized Vector Quantization -- 2.6 Practical Approaches to Source-Channel Coding -- 2.6.1 Systems for Multimedia Transmission -- 2.6.2 Separation of Source and Channel Coding -- 2.6.3 Approaches to Joint Source-Channel Decoding -- 2.6.4 Approaches to Joint Source-Channel Encoding -- 3. Joint Source-Channel Decoding -- 3.1 Introduction and System Model -- 3.2 Near Optimum Joint Source-Channel Decoding -- 3.2.1 Specialization and Generalization -- 3.3 Iterative Source-Channel Decoding (ISCD) -- 3.3.1 Principle and Derivation -- 3.3.2 Efficient Implementation of ISCD by L-values -- 3.3.3 Simulation Results for ISCD -- 3.4 Quantizer Bit Mappings for ISCD -- 3.4.1 Basic Considerations -- 3.4.2 Optimization by Binary Switching -- 3.4.3 Simulation Results with Optimized Bit Mappings -- 3.5 Conclusions -- 4. Channel-Adaptive Scaled Vector Quantization -- 4.1 Introduction -- 4.2 Memory and Complexity Issues for Vector Quantization (VQ) and Channel-Optimized VQ -- 4.3 Channel-Adaptive Scaled Vector Quantization -- 4.3.1 Basic Principle -- 4.3.2 Optimization of CASVQ -- 4.3.3 Complexity and Memory Requirements of CASVQ for Transmission over Time-Varying Channels -- 4.4 Simulation Results -- 4.5 Conclusions -- 5. Index Assignments for Multiple Descriptions -- 5.1 Introduction -- 5.2 System Model -- 5.3 Optimal Decoder for a Given Index Assignment -- 5.4 Quality Criterion for the Index Assignments -- 5.5 Optimization of the Index Assignments -- 5.5.1 The Complexity Problem -- 5.5.2 Index Optimization by the Binary Switching Algorithm for a System with a Single Description -- 5.5.3 Binary Switching for Multiple Descriptions -- 5.6 Simulation Results -- 5.7 Conclusions -- 6. Source-Adaptive Modulation -- 6.1 Introduction -- 6.2 Conventional System Model -- 6.2.1 Conventional Hard-Decision Receiver -- 6.2.2 Conventional Soft-Decision Receiver -- 6.3 Principle of Source-Adaptive Modulation (SAM) -- 6.4 SAM for Detection of M-PSK Signal Sets -- 6.4.1 Derivation of the Optimal Solution -- 6.4.2 Test-Point Method -- 6.4.3 Analytical Approximation -- 6.4.4 Simulation Results -- 6.5 SAM for Quadrature Amplitude Modulation -- 6.5.1 Discussion of Potential Signal-Point Locations -- 6.5.2 Simulation Results for SAM with QAM . -- 6.6 Conclusions -- 7. Source-Adaptive Power Allocation -- 7.1 Introduction -- 7.2 System Model -- 7.3 Principle of Source-Adaptive Power Allocation -- 7.4 Conventional Soft-Decision Receiver -- 7.5 Simulation Results -- 7.6 Conclusions -- 8. Concluding Remarks -- Appendix A Theoretical Performance Limits -- A.1 Preliminary Remarks -- A.2 Important Distortion-Rate Functions -- A.2.1 Memoryless Sources -- A.2.2 Comparison with Practical Quantization Schemes -- A.2.3 Gaussian Sources with Memory -- A.3 Capacities of Practically Important Channels -- A.3.1 Binary Symmetric Channel (BSC) -- A.3.2 Binary Erasure Channel (BEC) -- T$1867.
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Introduction -- 2. Joint Source-Channel Coding: An Overview -- 2.1 System Model -- 2.1.1 Channel -- 2.1.2 Encoder -- 2.1.3 Decoder -- 2.2 System Distortion -- 2.3 Optimal Decoder for a Given Encoder -- 2.4 Optimal Encoder -- 2.5 Special Cases -- 2.5.1 Preliminary Remarks -- 2.5.2 Gaussian Source and Gaussian Channel -- 2.5.3 Channels with Binary Input: Channel-Optimized Vector Quantization -- 2.6 Practical Approaches to Source-Channel Coding -- 2.6.1 Systems for Multimedia Transmission -- 2.6.2 Separation of Source and Channel Coding -- 2.6.3 Approaches to Joint Source-Channel Decoding -- 2.6.4 Approaches to Joint Source-Channel Encoding -- 3. Joint Source-Channel Decoding -- 3.1 Introduction and System Model -- 3.2 Near Optimum Joint Source-Channel Decoding -- 3.2.1 Specialization and Generalization -- 3.3 Iterative Source-Channel Decoding (ISCD) -- 3.3.1 Principle and Derivation -- 3.3.2 Efficient Implementation of ISCD by L-values -- 3.3.3 Simulation Results for ISCD -- 3.4 Quantizer Bit Mappings for ISCD -- 3.4.1 Basic Considerations -- 3.4.2 Optimization by Binary Switching -- 3.4.3 Simulation Results with Optimized Bit Mappings -- 3.5 Conclusions -- 4. Channel-Adaptive Scaled Vector Quantization -- 4.1 Introduction -- 4.2 Memory and Complexity Issues for Vector Quantization (VQ) and Channel-Optimized VQ -- 4.3 Channel-Adaptive Scaled Vector Quantization -- 4.3.1 Basic Principle -- 4.3.2 Optimization of CASVQ -- 4.3.3 Complexity and Memory Requirements of CASVQ for Transmission over Time-Varying Channels -- 4.4 Simulation Results -- 4.5 Conclusions -- 5. Index Assignments for Multiple Descriptions -- 5.1 Introduction -- 5.2 System Model -- 5.3 Optimal Decoder for a Given Index Assignment -- 5.4 Quality Criterion for the Index Assignments -- 5.5 Optimization of the Index Assignments -- 5.5.1 The Complexity Problem -- 5.5.2 Index Optimization by the Binary Switching Algorithm for a System with a Single Description -- 5.5.3 Binary Switching for Multiple Descriptions -- 5.6 Simulation Results -- 5.7 Conclusions -- 6. Source-Adaptive Modulation -- 6.1 Introduction -- 6.2 Conventional System Model -- 6.2.1 Conventional Hard-Decision Receiver -- 6.2.2 Conventional Soft-Decision Receiver -- 6.3 Principle of Source-Adaptive Modulation (SAM) -- 6.4 SAM for Detection of M-PSK Signal Sets -- 6.4.1 Derivation of the Optimal Solution -- 6.4.2 Test-Point Method -- 6.4.3 Analytical Approximation -- 6.4.4 Simulation Results -- 6.5 SAM for Quadrature Amplitude Modulation -- 6.5.1 Discussion of Potential Signal-Point Locations -- 6.5.2 Simulation Results for SAM with QAM . -- 6.6 Conclusions -- 7. Source-Adaptive Power Allocation -- 7.1 Introduction -- 7.2 System Model -- 7.3 Principle of Source-Adaptive Power Allocation -- 7.4 Conventional Soft-Decision Receiver -- 7.5 Simulation Results -- 7.6 Conclusions -- 8. Concluding Remarks -- Appendix A Theoretical Performance Limits -- A.1 Preliminary Remarks -- A.2 Important Distortion-Rate Functions -- A.2.1 Memoryless Sources -- A.2.2 Comparison with Practical Quantization Schemes -- A.2.3 Gaussian Sources with Memory -- A.3 Capacities of Practically Important Channels -- A.3.1 Binary Symmetric Channel (BSC) -- A.3.2 Binary Erasure Channel (BEC) -- T$1867.</subfield></datafield><datafield tag="520" ind1=" " ind2=" "><subfield code="a">This book provides the first comprehensive and easy-to-read discussion of joint source-channel encoding and decoding for source signals with continuous amplitudes. It is a state-of-the-art presentation of this exciting, thriving field of research, making pioneering contributions to the new concept of source-adaptive modulation. The book starts with the basic theory and the motivation for a joint realization of source and channel coding. Specialized chapters deal with practically relevant scenarios such as iterative source-channel decoding and its optimization for a given encoder, and also improved encoder designs by channel-adaptive quantization or source-adaptive modulation. Although Information Theory is not the main topic of the book - in fact, the concept of joint source-channel coding is contradictory to the classical system design motivated by a questionable practical interpretation of the separation theorem - this theory still provides the ultimate performance limits for any practical system, whether it uses joint source-channel coding or not. 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illustrated	Illustrated
indexdate	2024-11-27T13:16:32Z
institution	BVB
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publisher	Imperial College Press ; Distributed by World Scientific Pub.,
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series	Communications and signal processing (London, England) ;
series2	Communications and signal processing ;
spelling	Goertz, Norbert. https://id.oclc.org/worldcat/entity/E39PCjB4QmBGhX8YFDtDjjQ44q http://id.loc.gov/authorities/names/no2008022034 Joint source-channel coding of discrete-time signals with continuous amplitudes / Norbert Goertz. London : Imperial College Press ; Singapore ; Hackensack, NJ : Distributed by World Scientific Pub., ©2007. 1 online resource (xii, 194 pages) : illustrations text txt rdacontent computer c rdamedia online resource cr rdacarrier Communications and signal processing ; v. 1 Includes bibliographical references (pages 187-191) and index. Cover -- Contents -- Preface -- 1. Introduction -- 2. Joint Source-Channel Coding: An Overview -- 2.1 System Model -- 2.1.1 Channel -- 2.1.2 Encoder -- 2.1.3 Decoder -- 2.2 System Distortion -- 2.3 Optimal Decoder for a Given Encoder -- 2.4 Optimal Encoder -- 2.5 Special Cases -- 2.5.1 Preliminary Remarks -- 2.5.2 Gaussian Source and Gaussian Channel -- 2.5.3 Channels with Binary Input: Channel-Optimized Vector Quantization -- 2.6 Practical Approaches to Source-Channel Coding -- 2.6.1 Systems for Multimedia Transmission -- 2.6.2 Separation of Source and Channel Coding -- 2.6.3 Approaches to Joint Source-Channel Decoding -- 2.6.4 Approaches to Joint Source-Channel Encoding -- 3. Joint Source-Channel Decoding -- 3.1 Introduction and System Model -- 3.2 Near Optimum Joint Source-Channel Decoding -- 3.2.1 Specialization and Generalization -- 3.3 Iterative Source-Channel Decoding (ISCD) -- 3.3.1 Principle and Derivation -- 3.3.2 Efficient Implementation of ISCD by L-values -- 3.3.3 Simulation Results for ISCD -- 3.4 Quantizer Bit Mappings for ISCD -- 3.4.1 Basic Considerations -- 3.4.2 Optimization by Binary Switching -- 3.4.3 Simulation Results with Optimized Bit Mappings -- 3.5 Conclusions -- 4. Channel-Adaptive Scaled Vector Quantization -- 4.1 Introduction -- 4.2 Memory and Complexity Issues for Vector Quantization (VQ) and Channel-Optimized VQ -- 4.3 Channel-Adaptive Scaled Vector Quantization -- 4.3.1 Basic Principle -- 4.3.2 Optimization of CASVQ -- 4.3.3 Complexity and Memory Requirements of CASVQ for Transmission over Time-Varying Channels -- 4.4 Simulation Results -- 4.5 Conclusions -- 5. Index Assignments for Multiple Descriptions -- 5.1 Introduction -- 5.2 System Model -- 5.3 Optimal Decoder for a Given Index Assignment -- 5.4 Quality Criterion for the Index Assignments -- 5.5 Optimization of the Index Assignments -- 5.5.1 The Complexity Problem -- 5.5.2 Index Optimization by the Binary Switching Algorithm for a System with a Single Description -- 5.5.3 Binary Switching for Multiple Descriptions -- 5.6 Simulation Results -- 5.7 Conclusions -- 6. Source-Adaptive Modulation -- 6.1 Introduction -- 6.2 Conventional System Model -- 6.2.1 Conventional Hard-Decision Receiver -- 6.2.2 Conventional Soft-Decision Receiver -- 6.3 Principle of Source-Adaptive Modulation (SAM) -- 6.4 SAM for Detection of M-PSK Signal Sets -- 6.4.1 Derivation of the Optimal Solution -- 6.4.2 Test-Point Method -- 6.4.3 Analytical Approximation -- 6.4.4 Simulation Results -- 6.5 SAM for Quadrature Amplitude Modulation -- 6.5.1 Discussion of Potential Signal-Point Locations -- 6.5.2 Simulation Results for SAM with QAM . -- 6.6 Conclusions -- 7. Source-Adaptive Power Allocation -- 7.1 Introduction -- 7.2 System Model -- 7.3 Principle of Source-Adaptive Power Allocation -- 7.4 Conventional Soft-Decision Receiver -- 7.5 Simulation Results -- 7.6 Conclusions -- 8. Concluding Remarks -- Appendix A Theoretical Performance Limits -- A.1 Preliminary Remarks -- A.2 Important Distortion-Rate Functions -- A.2.1 Memoryless Sources -- A.2.2 Comparison with Practical Quantization Schemes -- A.2.3 Gaussian Sources with Memory -- A.3 Capacities of Practically Important Channels -- A.3.1 Binary Symmetric Channel (BSC) -- A.3.2 Binary Erasure Channel (BEC) -- T$1867. This book provides the first comprehensive and easy-to-read discussion of joint source-channel encoding and decoding for source signals with continuous amplitudes. It is a state-of-the-art presentation of this exciting, thriving field of research, making pioneering contributions to the new concept of source-adaptive modulation. The book starts with the basic theory and the motivation for a joint realization of source and channel coding. Specialized chapters deal with practically relevant scenarios such as iterative source-channel decoding and its optimization for a given encoder, and also improved encoder designs by channel-adaptive quantization or source-adaptive modulation. Although Information Theory is not the main topic of the book - in fact, the concept of joint source-channel coding is contradictory to the classical system design motivated by a questionable practical interpretation of the separation theorem - this theory still provides the ultimate performance limits for any practical system, whether it uses joint source-channel coding or not. Therefore, the theoretical limits are presented in a self-contained appendix, which is a useful reference also for those not directly interested in the main topic of this book. Print version record. Coding theory. http://id.loc.gov/authorities/subjects/sh85027654 Adaptive signal processing. http://id.loc.gov/authorities/subjects/sh85000805 Traitement adaptatif du signal. COMPUTERS Information Theory. bisacsh Adaptive signal processing fast Coding theory fast has work: Joint source-channel coding of discrete-time signals with continuous amplitudes (Text) https://id.oclc.org/worldcat/entity/E39PCGP6RKtHXpMWCQGw99Jcvb https://id.oclc.org/worldcat/ontology/hasWork Print version: Goertz, Norbert. Joint source-channel coding of discrete-time signals with continuous amplitudes. London : Imperial College Press ; Singapore ; Hackensack, NJ : Distributed by World Scientific Pub., ©2007 1860948456 9781860948459 (DLC) 2008297179 (OCoLC)170923074 Communications and signal processing (London, England) ; v. 1. http://id.loc.gov/authorities/names/no2008020988 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=235964 Volltext
spellingShingle	Goertz, Norbert Joint source-channel coding of discrete-time signals with continuous amplitudes / Communications and signal processing (London, England) ; Cover -- Contents -- Preface -- 1. Introduction -- 2. Joint Source-Channel Coding: An Overview -- 2.1 System Model -- 2.1.1 Channel -- 2.1.2 Encoder -- 2.1.3 Decoder -- 2.2 System Distortion -- 2.3 Optimal Decoder for a Given Encoder -- 2.4 Optimal Encoder -- 2.5 Special Cases -- 2.5.1 Preliminary Remarks -- 2.5.2 Gaussian Source and Gaussian Channel -- 2.5.3 Channels with Binary Input: Channel-Optimized Vector Quantization -- 2.6 Practical Approaches to Source-Channel Coding -- 2.6.1 Systems for Multimedia Transmission -- 2.6.2 Separation of Source and Channel Coding -- 2.6.3 Approaches to Joint Source-Channel Decoding -- 2.6.4 Approaches to Joint Source-Channel Encoding -- 3. Joint Source-Channel Decoding -- 3.1 Introduction and System Model -- 3.2 Near Optimum Joint Source-Channel Decoding -- 3.2.1 Specialization and Generalization -- 3.3 Iterative Source-Channel Decoding (ISCD) -- 3.3.1 Principle and Derivation -- 3.3.2 Efficient Implementation of ISCD by L-values -- 3.3.3 Simulation Results for ISCD -- 3.4 Quantizer Bit Mappings for ISCD -- 3.4.1 Basic Considerations -- 3.4.2 Optimization by Binary Switching -- 3.4.3 Simulation Results with Optimized Bit Mappings -- 3.5 Conclusions -- 4. Channel-Adaptive Scaled Vector Quantization -- 4.1 Introduction -- 4.2 Memory and Complexity Issues for Vector Quantization (VQ) and Channel-Optimized VQ -- 4.3 Channel-Adaptive Scaled Vector Quantization -- 4.3.1 Basic Principle -- 4.3.2 Optimization of CASVQ -- 4.3.3 Complexity and Memory Requirements of CASVQ for Transmission over Time-Varying Channels -- 4.4 Simulation Results -- 4.5 Conclusions -- 5. Index Assignments for Multiple Descriptions -- 5.1 Introduction -- 5.2 System Model -- 5.3 Optimal Decoder for a Given Index Assignment -- 5.4 Quality Criterion for the Index Assignments -- 5.5 Optimization of the Index Assignments -- 5.5.1 The Complexity Problem -- 5.5.2 Index Optimization by the Binary Switching Algorithm for a System with a Single Description -- 5.5.3 Binary Switching for Multiple Descriptions -- 5.6 Simulation Results -- 5.7 Conclusions -- 6. Source-Adaptive Modulation -- 6.1 Introduction -- 6.2 Conventional System Model -- 6.2.1 Conventional Hard-Decision Receiver -- 6.2.2 Conventional Soft-Decision Receiver -- 6.3 Principle of Source-Adaptive Modulation (SAM) -- 6.4 SAM for Detection of M-PSK Signal Sets -- 6.4.1 Derivation of the Optimal Solution -- 6.4.2 Test-Point Method -- 6.4.3 Analytical Approximation -- 6.4.4 Simulation Results -- 6.5 SAM for Quadrature Amplitude Modulation -- 6.5.1 Discussion of Potential Signal-Point Locations -- 6.5.2 Simulation Results for SAM with QAM . -- 6.6 Conclusions -- 7. Source-Adaptive Power Allocation -- 7.1 Introduction -- 7.2 System Model -- 7.3 Principle of Source-Adaptive Power Allocation -- 7.4 Conventional Soft-Decision Receiver -- 7.5 Simulation Results -- 7.6 Conclusions -- 8. Concluding Remarks -- Appendix A Theoretical Performance Limits -- A.1 Preliminary Remarks -- A.2 Important Distortion-Rate Functions -- A.2.1 Memoryless Sources -- A.2.2 Comparison with Practical Quantization Schemes -- A.2.3 Gaussian Sources with Memory -- A.3 Capacities of Practically Important Channels -- A.3.1 Binary Symmetric Channel (BSC) -- A.3.2 Binary Erasure Channel (BEC) -- T$1867. Coding theory. http://id.loc.gov/authorities/subjects/sh85027654 Adaptive signal processing. http://id.loc.gov/authorities/subjects/sh85000805 Traitement adaptatif du signal. COMPUTERS Information Theory. bisacsh Adaptive signal processing fast Coding theory fast
subject_GND	http://id.loc.gov/authorities/subjects/sh85027654 http://id.loc.gov/authorities/subjects/sh85000805
title	Joint source-channel coding of discrete-time signals with continuous amplitudes /
title_auth	Joint source-channel coding of discrete-time signals with continuous amplitudes /
title_exact_search	Joint source-channel coding of discrete-time signals with continuous amplitudes /
title_full	Joint source-channel coding of discrete-time signals with continuous amplitudes / Norbert Goertz.
title_fullStr	Joint source-channel coding of discrete-time signals with continuous amplitudes / Norbert Goertz.
title_full_unstemmed	Joint source-channel coding of discrete-time signals with continuous amplitudes / Norbert Goertz.
title_short	Joint source-channel coding of discrete-time signals with continuous amplitudes /
title_sort	joint source channel coding of discrete time signals with continuous amplitudes
topic	Coding theory. http://id.loc.gov/authorities/subjects/sh85027654 Adaptive signal processing. http://id.loc.gov/authorities/subjects/sh85000805 Traitement adaptatif du signal. COMPUTERS Information Theory. bisacsh Adaptive signal processing fast Coding theory fast
topic_facet	Coding theory. Adaptive signal processing. Traitement adaptatif du signal. COMPUTERS Information Theory. Adaptive signal processing Coding theory
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=235964
work_keys_str_mv	AT goertznorbert jointsourcechannelcodingofdiscretetimesignalswithcontinuousamplitudes

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