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1.

図書

図書
L. Hanzo ... [et al.]
出版情報: Chichester : Wiley, c2011  xxii, 494 p. ; 26 cm
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目次情報: 続きを見る
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
2.

図書

図書
Johannes Buchmann ... [et al.] (eds.)
出版情報: Berlin ; New York : Springer-Verlag, c2000  viii, 259 p. ; 24 cm
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3.

図書

図書
André Neubauer, Jürgen Freudenberger, Volker Kühn
出版情報: Chichester : Wiley, c2007  xi, 340 p. ; 26 cm
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Preface
Introduction / 1:
Communication Systems / 1.1:
Information Theory / 1.2:
Entropy / 1.2.1:
Channel Capacity / 1.2.2:
Binary Symmetric Channel / 1.2.3:
AWGN Channel / 1.2.4:
A Simple Channel Code / 1.3:
Algebraic Coding Theory / 2:
Fundamentals of Block Codes / 2.1:
Code Parameters / 2.1.1:
Maximum Likelihood Decoding / 2.1.2:
Error Detection and Error Correction / 2.1.3:
Linear Block Codes / 2.2:
Definition of Linear Block Codes / 2.2.1:
Generator Matrix / 2.2.2:
Parity-Check Matrix / 2.2.3:
Syndrome and Cosets / 2.2.4:
Dual Code / 2.2.5:
Bounds for Linear Block Codes / 2.2.6:
Code Constructions / 2.2.7:
Examples of Linear Block Codes / 2.2.8:
Cyclic Codes / 2.3:
Definition of Cyclic Codes / 2.3.1:
Generator Polynomial / 2.3.2:
Parity-Check Polynomial / 2.3.3:
Dual Codes / 2.3.4:
Linear Feedback Shift Registers / 2.3.5:
BCH Codes / 2.3.6:
Reed-Solomon Codes / 2.3.7:
Algebraic Decoding Algorithm / 2.3.8:
Summary / 2.4:
Convolutional Codes / 3:
Encoding of Convolutional Codes / 3.1:
Convolutional Encoder / 3.1.1:
Generator Matrix in the Time Domain / 3.1.2:
State Diagram of a Convolutional Encoder / 3.1.3:
Code Termination / 3.1.4:
Puncturing / 3.1.5:
Generator Matrix in the D-Domain / 3.1.6:
Encoder Properties / 3.1.7:
Trellis Diagram and the Viterbi Algorithm / 3.2:
Minimum Distance Decoding / 3.2.1:
Trellises / 3.2.2:
Viterbi Algorithm / 3.2.3:
Distance Properties and Error Bounds / 3.3:
Free Distance / 3.3.1:
Active Distances / 3.3.2:
Weight Enumerators for Terminated Codes / 3.3.3:
Path Enumerators / 3.3.4:
Pairwise Error Probability / 3.3.5:
Viterbi Bound / 3.3.6:
Soft-input Decoding / 3.4:
Euclidean Metric / 3.4.1:
Support of Punctured Codes / 3.4.2:
Implementation Issues / 3.4.3:
Soft-output Decoding / 3.5:
Derivation of APP Decoding / 3.5.1:
APP Decoding in the Log Domain / 3.5.2:
Convolutional Coding in Mobile Communications / 3.6:
Coding of Speech Data / 3.6.1:
Hybrid ARQ / 3.6.2:
EGPRS Modulation and Coding / 3.6.3:
Retransmission Mechanism / 3.6.4:
Link Adaptation / 3.6.5:
Incremental Redundancy / 3.6.6:
Turbo Codes / 3.7:
LDPC Codes / 4.1:
Codes Based on Sparse Graphs / 4.1.1:
Decoding for the Binary Erasure Channel / 4.1.2:
Log-Likelihood Algebra / 4.1.3:
Belief Propagation / 4.1.4:
A First Encounter with Code Concatenation / 4.2:
Product Codes / 4.2.1:
Iterative Decoding of Product Codes / 4.2.2:
Concatenated Convolutional Codes / 4.3:
Parallel Concatenation / 4.3.1:
The UMTS Turbo Code / 4.3.2:
Serial Concatenation / 4.3.3:
Partial Concatenation / 4.3.4:
Turbo Decoding / 4.3.5:
EXIT Charts / 4.4:
Calculating an EXIT Chart / 4.4.1:
Interpretation / 4.4.2:
Weight Distribution / 4.5:
Partial Weights / 4.5.1:
Expected Weight Distribution / 4.5.2:
Woven Convolutional Codes / 4.6:
Encoding Schemes / 4.6.1:
Distance Properties of Woven Codes / 4.6.2:
Woven Turbo Codes / 4.6.3:
Interleaver Design / 4.6.4:
Space-Time Codes / 4.7:
Digital Modulation Schemes / 5.1:
Diversity / 5.1.2:
Spatial Channels / 5.2:
Basic Description / 5.2.1:
Spatial Channel Models / 5.2.2:
Channel Estimation / 5.2.3:
Performance Measures / 5.3:
Outage Probability and Outage Capacity / 5.3.1:
Ergodic Error Probability / 5.3.3:
Orthogonal Space-Time Block Codes / 5.4:
Alamouti's Scheme / 5.4.1:
Extension to More than Two Transmit Antennas / 5.4.2:
Simulation Results / 5.4.3:
Spatial Multiplexing / 5.5:
General Concept / 5.5.1:
Iterative APP Preprocessing and Per-layer Decoding / 5.5.2:
Linear Multilayer Detection / 5.5.3:
Original BLAST Detection / 5.5.4:
QL Decomposition and Interference Cancellation / 5.5.5:
Performance of Multi-Layer Detection Schemes / 5.5.6:
Unified Description by Linear Dispersion Codes / 5.5.7:
Algebraic Structures / 5.6:
Groups, Rings and Finite Fields / A.1:
Groups / A.1.1:
Rings / A.1.2:
Finite Fields / A.1.3:
Vector Spaces / A.2:
Polynomials and Extension Fields / A.3:
Discrete Fourier Transform / A.4:
Linear Algebra / B:
Acronyms / C:
Bibliography
Index
Preface
Introduction / 1:
Communication Systems / 1.1:
4.

図書

図書
Eiji Fujiwara
出版情報: Hoboken, N.J. : Wiley-Interscience, c2006  xiii, 701 p. ; 26 cm
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Preface
Introduction / 1:
Faults and Failures / 1.1:
Error Models / 1.2:
Error Recovery Techniques for Dependable Systems / 1.3:
Code Design Process for Dependable Systems / 1.4:
References
Mathematical Background and Matrix Codes / 2:
Introduction to Algebra / 2.1:
Linear Codes / 2.2:
Basic Matrix Codes / 2.3:
Exercises
Design Techniques for Matrix Codes / 3:
Minimum-Weight & Equal-Weight-Row Codes / 3.1:
Odd-Weight-Column Codes / 3.2:
Even-Weight-Row Codes / 3.3:
Odd-Weight-Row Codes / 3.4:
Rotational Codes / 3.5:
Code Design Techniques for Matrix Codes
Codes for High-Speed Memories I: Bit Error Control Codes / 4:
Modified Hamming SEC-DED Codes / 4.1:
Modified Double-Bit Error Correcting BCH Codes / 4.2:
On-Chip ECCs / 4.3:
Codes for High-Speed Memories II: Byte Error Control Codes / 5:
Single-Byte Error Correcting (SbEC) Codes / 5.1:
Single-Byte Error Correcting and Double-Byte Error Detecting (SbEC-DbED) Codes / 5.2:
Single-Byte Error Correcting and Single p-Byte within a Block Error Detecting (SbEC-Spb=BED) Codes / 5.3:
Codes for High-Speed Memories III: Bit / Byte Error Control Codes / 6:
Single-Byte / Burst Error Detecting SEC-DED Codes / 6.1:
Single-Byte Error Correcting and Double-Bit Error Detecting (SbEC-DED) Codes / 6.2:
Single-Byte Error Correcting and Double-Bit Error Correcting (SbEC-DEC) Codes / 6.3:
Single-Byte Error Correcting and Single-Byte Plus Single-Bit Error Detecting (SbEC-(Sb?S)ED) Codes / 6.4:
Codes for High-Speed Memories IV: Spotty Byte Error Control Codes / 7:
Spotty Byte Errors / 7.1:
Single Spotty Byte Error Correcting (St=bEC) Codes / 7.2:
Single Spotty Byte Error Correcting and Single-Byte Error Detecting (St=bEC-SbED) Codes / 7.3:
Single Spotty Byte Error Correcting and Double Spotty Byte Error Detecting (St=bEC-Dt=bED) Codes / 7.4:
A General Class of Spotty Byte Error Control Codes / 7.5:
Single-Byte Error Correcting and Single p-Byte within a Block Error Detecting (SbEC-S[subscript pxb/B]ED) Codes / 8:
Paralled Decoding for Burst / Byte Error Control Codes
Parallel Decoding Burst Error Control Codes / 8.1:
Parallel Decoding Cyclic Burst Error Correcting Codes / 8.2:
Transient Behavior of Parallel Encoder / Decoder Circuits of Error Control Codes / 8.3:
Codes for High-Speed Memories III: Bit/Byte Error Control Codes
Codes for Error Location: Error Locating Codes / 9:
Error Location of Faulty Packages and Faulty Chips / 9.1:
Block Error Locating (Sb=pbEL) Codes / 9.2:
Single-Bit Error Correcting and Single-Block Error Locating (SEC-Sb=pbEL) Codes / 9.3:
Single-Bit Error Correcting and Single-Byte Error Locating (SEC-Se=bEL) Codes / 9.4:
Single-Byte Error Correcting and Single-Byte Plus Single-Bit Error Detecting (SbEC-(Sb + S)ED) Codes
Burst Error Locating Codes / 9.5:
Code Conditions for Error Locating Codes / 9.6:
Codes for Unequal Error Control / Protection (UEC / UEP) / 10:
Error Models for UEC Codes and UEP Codes / 10.1:
Fixed-Byte Error Control UEC Codes / 10.2:
Burst Error Control UEC / UEP Codes / 10.3:
Single Spotty Byte Error Correcting (S[subscript t/b]EC) Codes / 10.4:
Application of the UEC / UEP Codes
Single Spotty Byte Error Correcting and Single-Byte Error Detecting (S[subscript t/b]EC-SbED) Codes
Codes for Mass Memories / 11:
Single Spotty Byte Error Correcting and Double Spotty Byte Error Detecting (S[subscript t/b]EC-D[subscript t/b]ED) Codes / 11.1:
Tape Memory Codes
Magnetic Disk Memory Codes / 11.2:
Optical Disk Memory Codes / 11.3:
Coding for Logic and System Design / 12:
Parallel Decoding Burst / Byte Error Control Codes / 12.1:
Self-checking Concept
Self-testing Checkers / 12.2:
Self-checking ALU / 12.3:
Self-checking Design for Computer Systems / 12.4:
Codes for Data Entry Systems / 13:
M-Ary Asymmetric Errors in Data Entry Systems / 13.1:
M-Ary Asymmetric Symbol Error Correcting Codes / 13.2:
Nonsystematic M-Ary Asymmetric Error Correcting Codes with Deletion / Insertion / Adjacent-Symbol-Transposition Error Correction Capabilities / 13.3:
Codes for Two-Dimentional Matrix Symbols / 13.4:
Block Error Locating (S[subscript b/pxb]EL) Codes / 14:
Codes for Multiple / Distributed Storage
Single-Bit Error Correcting and Single-Block Error Locating (SEC-S[subscript b/pxb]EL) Codes
Single-Bit Error Correcting and Single-Byte Error Locating (SEC-S[subscript e/b]EL) Codes
Codes for Unequal Error Control/Protection (UEC / UEP)
Codes for Two-Dimensional Matrix Symbols
Codes for Multiple / Distributed Storage Systems
MDS Array Codes Tolerating Multiple-Disk Failures / 14.1:
Codes for Distributed Storage Systems / 14.2:
Index
Preface
Introduction / 1:
Faults and Failures / 1.1:
5.

図書

図書
Ian F. Blake, Ronald C. Mullin
出版情報: New York : Academic Press, 1975  xi, 356 p. ; 24 cm
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6.

図書

図書
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:
7.

図書

図書
Solomon W. Golomb, with portions co-authored by Lloyd R. Welch, Richard M. Goldstein and Alfred W. Hales
出版情報: Laguna Hills, Calif. : Aegean Park Press, c1982  xvi, 247 p. ; 22 cm
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8.

図書

図書
Branka Vucetic, Jinhong Yuan
出版情報: Chichester : Wiley, c2003  xxvii, 302 p. ; 25 cm
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List of Acronyms
List of Figures
List of Tables
Preface
Performance Limits of Multiple-Input Multiple-Output Wireless Communication Systems
Space-Time Coding Performance Analysis and Code Design
Space-Time Block Codes / 1:
Space-Time Trellis Codes
Space-Time Turbo Trellis Codes
Layered Space-Time Codes / 1.1:
Differential Space-Time Block Codes
Introduction
Space-Time Coding for Wideband Systems
Index / 1.2:
MIMO System Model
MIMO System Capacity Derivation / 1.3:
MIMO Channel Capacity Derivation for Adaptive Transmit Power Allocation / 1.4:
MIMO Capacity Examples for Channels with Fixed Coefficients / 1.5:
Capacity of MIMO Systems with Random Channel Coefficients / 1.6:
Capacity of MIMO Fast and Block Rayleigh Fading Channels / 1.6.1:
Capacity of MIMO Slow Rayleigh Fading Channels / 1.6.2:
Capacity Examples for MIMO Slow Rayleigh Fading Channels / 1.6.3:
Effect of System Parameters and Antenna Correlation on the Capacity of MIMO Channels / 1.7:
Correlation Model for LOS MIMO Channels / 1.7.1:
Correlation Model for a Rayleigh MIMO Fading Channel / 1.7.2:
Correlation Model for a Rician MIMO Channel / 1.7.3:
Keyhole Effect / 1.7.4:
MIMO Correlation Fading Channel Model with Transmit and Receive Scatterers / 1.7.5:
The Effect of System Parameters on the Keyhole Propagation / 1.7.6:
Fading Channel Models / 2:
Multipath Propagation / 2.2.1:
Doppler Shift / 2.2.2:
Statistical Models for Fading Channels / 2.2.3:
Diversity / 2.3:
Diversity Techniques / 2.3.1:
Diversity Combining Methods / 2.3.2:
Transmit Diversity / 2.3.3:
Space-Time Coded Systems / 2.4:
Performance Analysis of Space-Time Codes / 2.5:
Error Probability on Slow Fading Channels / 2.5.1:
Error Probability on Fast Fading Channels / 2.5.2:
Space-Time Code Design Criteria / 2.6:
Code Design Criteria for Slow Rayleigh Fading Channels / 2.6.1:
Code Design Criteria for Fast Rayleigh Fading Channels / 2.6.2:
Code Performance at Low to Medium SNR Ranges / 2.6.3:
Exact Evaluation of Code Performance / 2.7:
Alamouti Space-Time Code / 3:
Alamouti Space-Time Encoding / 3.2.1:
Combining and Maximum Likelihood Decoding / 3.2.2:
The Alamouti Scheme with Multiple Receive Antennas / 3.2.3:
Performance of the Alamouti Scheme / 3.2.4:
Space-Time Block Codes (STBC) / 3.3:
Space-Time Block Encoder / 3.3.1:
STBC for Real Signal Constellations / 3.4:
STBC for Complex Signal Constellations / 3.5:
Decoding of STBC / 3.6:
Performance of STBC / 3.7:
Effect of Imperfect Channel Estimation on Performance / 3.8:
Effect of Antenna Correlation on Performance / 3.9:
Encoder Structure for STTC / 4:
Generator Description / 4.2.1:
Generator Polynomial Description / 4.2.2:
Example / 4.2.3:
Design of Space-Time Trellis Codes on Slow Fading Channels / 4.3:
Optimal STTC Based on the Rank & Determinant Criteria / 4.3.1:
Optimal STTC Based on the Trace Criterion / 4.3.2:
Performance Evaluation on Slow Fading Channels / 4.4:
Performance of the Codes Based on the Rank & Determinant Criteria / 4.4.1:
Performance of the Codes Based on the Trace Criterion / 4.4.2:
Performance Comparison for Codes Based on Different Design Criteria / 4.4.3:
The Effect of the Number of Transmit Antennas on Code Performance / 4.4.4:
The Effect of the Number of Receive Antennas on Code Performance / 4.4.5:
The Effect of Channel Correlation on Code Performance / 4.4.6:
The Effect of Imperfect Channel Estimation on Code Performance / 4.4.7:
Design of Space-Time Trellis Codes on Fast Fading Channels / 4.5:
Performance Evaluation on Fast Fading Channels / 4.6:
Construction of Recursive STTC / 5:
Performance of Recursive STTC / 5.2:
Decoding Algorithm / 5.3:
Decoder Convergence / 5.4.1:
ST Turbo TC Performance / 5.5:
Comparison of ST Turbo TC and STTC / 5.5.1:
Effect of Memory Order and Interleaver Size / 5.5.2:
Effect of Number of Iterations / 5.5.3:
Effect of Component Code Design / 5.5.4:
Decoder EXIT Charts / 5.5.5:
Effect of Interleaver Type / 5.5.6:
Effect of Number of Transmit and Receive Antennas / 5.5.7:
Effect of Antenna Correlation / 5.5.8:
Effect of Imperfect Channel Estimation / 5.5.9:
Performance on Fast Fading Channels / 5.5.10:
LST Transmitters / 6:
LST Receivers / 6.3:
QR Decomposition Interference Suppression Combined with Interference Cancellation / 6.3.1:
Interference Minimum Mean Square Error (MMSE) Suppression Combined with Interference Cancellation / 6.3.2:
Iterative LST Receivers / 6.3.3:
An Iterative Receiver with PIC / 6.3.4:
An Iterative MMSE Receiver / 6.3.5:
Comparison of the Iterative MMSE and the Iterative PIC-DSC Receiver / 6.3.6:
Comparison of Various LST Architectures / 6.4:
Comparison of HLST Architectures with Various Component Codes / 6.4.1:
Differential Coding for a Single Transmit Antenna / 7:
Differential STBC for Two Transmit Antennas / 7.3:
Differential Encoding / 7.3.1:
Differential Decoding / 7.3.2:
Performance Simulation / 7.3.3:
Differential STBC with Real Signal Constellations for Three and Four Transmit Antennas / 7.4:
Differential STBC with Complex Signal Constellations for Three and Four Transmit Antennas / 7.4.1:
Unitary Space-Time Modulation / 7.5.1:
Unitary Group Codes / 7.7:
Performance of Space-Time Coding on Frequency-Selective Fading Channels / 8:
Frequency-Selective Fading Channels / 8.2.1:
Performance Analysis / 8.2.2:
STC in Wideband OFDM Systems / 8.3:
OFDM Technique / 8.3.1:
STC-OFDM Systems / 8.3.2:
Capacity of STC-OFDM Systems / 8.4:
Performance Analysis of STC-OFDM Systems / 8.5:
Performance Evaluation of STC-OFDM Systems / 8.6:
Performance on A Single-Path Fading Channel / 8.6.1:
The Effect of The Interleavers on Performance / 8.6.2:
The Effect of Symbol-Wise Hamming Distance on Performance / 8.6.3:
The Effect of The Number of Paths on Performance / 8.6.4:
Performance of Concatenated Space-Time Codes Over OFDM Systems / 8.7:
Concatenated RS-STC over OFDM Systems / 8.7.1:
Concatenated CONV-STC over OFDM Systems / 8.7.2:
ST Turbo TC over OFDM Systems / 8.7.3:
Transmit Diversity Schemes in CDMA Systems / 8.8:
System Model / 8.8.1:
Open-Loop Transmit Diversity for CDMA / 8.8.2:
Closed-Loop Transmit Diversity for CDMA / 8.8.3:
Time-Switched Orthogonal Transmit Diversity (TS-OTD) / 8.8.4:
Space-Time Spreading (STS) / 8.8.5:
STS for Three and Four Antennas / 8.8.6:
Space-Time Coding for CDMA Systems / 8.9:
Performance of STTC in CDMA Systems / 8.10:
Space-Time Matched Filter Detector / 8.10.1:
Space-Time MMSE Multiuser Detector / 8.10.2:
Space-Time Iterative MMSE Detector / 8.10.3:
Performance Simulations / 8.10.4:
Performance of Layered STC in CDMA Systems / 8.11:
List of Acronyms
List of Figures
List of Tables
9.

図書

図書
Stephen J. Solari
出版情報: New York : McGraw-Hill, c1997  ix, 281 p. ; 24 cm
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10.

図書

図書
edited by W.B. Kleijn, K.K. Paliwal
出版情報: Amsterdam ; New York : Elsevier, 1995  xvii, 755 p. ; 25 cm
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Chapter Headings. An Introduction to Speech Coding / W.B. Kleijn ; K.K. Paliwal
Speech Coding Standards / R.V. Cox
Linear-Prediction based Analysis-by-Synthesis Coding / P. Kroon
Sinusoidal Coding / R.J. McAulay ; T.F. Quatieri
Waveform Interpolation for Coding and Synthesis / J. Haagen
Low-Delay Coding of Speech / J.-H. Chen
Multimode and Variable-Rate Coding of Speech / A. Das et al.
Wideband Speech Coding / J-P. Adoul ; R. Lefebvre
Vector Quantization for Speech Transmission / P. Hedelin et al.
Theory for Transmission of Vector Quantization Data
Waveform Coding and Auditory Masking / R. Veldhuis ; A. Kohlrausch
Quantization of LPC Parameters
Evaluation of Speech Coders
A Robust Algorithm for Pitch Tracking (RAPT) / D. Talkin
Time-Domain and Frequency-Domain Techniques for Prosodic Modification of Speech / E. Moulines ; W. Verhelst
Nonlinear Processing of Speech / G. Kubin
An Approach to Text-to-Speech Synthesis / R. Sp roat ; J. Olive
The Generation of Prosodic Structure and Intonation in Speech Synthesis / J. Terken ; R. Collier
Computation of Timing in Text-to-Speech Synthesis / J.P.H. van Santen
Objective Optimization in Algorithms for Text-to-Speech Synthesis / Y. Sagisaka ; N. Iwahashi
Quality Evaluation of Synthesized Speech / V.J. van Heuven ; R. van Bezooijen
Subject Index
Chapter Headings. An Introduction to Speech Coding / W.B. Kleijn ; K.K. Paliwal
Speech Coding Standards / R.V. Cox
Linear-Prediction based Analysis-by-Synthesis Coding / P. Kroon
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