Coding and Modulation for Digital Television,9780792379690

Coding and Modulation for Digital Television

by ; ;
ISBN13: 9780792379690
ISBN10: 0792379691
Format: Hardcover
Pub. Date: 2000-09-01
Publisher(s): Kluwer Academic Pub
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Summary

Coding and Modulation for Digital Television presents a comprehensive description of all error control coding and digital modulation techniques used in Digital Television (DTV). This book illustrates the relevant elements from the expansive theory of channel coding to how the transmission environment dictates the choice of error control coding and digital modulation schemes. These elements are presented in such a way that both the 'mathematical integrity' and 'understanding for engineers' are combined in a complete form and supported by a number of practical examples. In addition, the book contains descriptions of the existing standards and provides a valuable source of corresponding references. Coding and Modulation for Digital Television also features a description of the latest techniques, providing the reader with a glimpse of future digital broadcasting. These include the concepts of soft-in-soft-out decoding, turbo-coding and cross-correlated quadrature modulation, all of which will have a prominent future in improving efficiency of the next generation DTV systems. Coding and Modulation for Digital Television is essential reading for all undergraduate and postgraduate students, broadcasting and communication engineers, researchers, marketing managers, regulatory bodies, governmental organizations and standardization institutions of the digital television industry.

Table of Contents

Preface ix
An Introduction to Television
1(26)
Television History
1(2)
The History of Radio
3(2)
Television Standards
5(6)
Introduction
5(1)
Colour - NTSC, PAL and SECAM
6(1)
The MAC Family
7(1)
W-MAC
8(1)
HD-MAC
8(1)
MUSE
8(1)
Enhanced PAL (E-PAL)
8(1)
PALPlus
9(1)
High Definition TV
9(2)
Emergence of DTV
11(3)
Broadcasting
11(2)
Computing
13(1)
The Business of TV
14(4)
The Infrastructure of Broadcasting
14(1)
Regulation
15(2)
Commercial Matters
17(1)
Digital Broadcasting Standards
18(9)
Administration of Technical Standards
18(2)
European approach - DVB
20(2)
North America
22(2)
Japan
24(3)
Basic Principles of Digital TV Broadcasting
27(20)
Why Digital
27(2)
Digital Coding of existing TV signals
29(3)
The Compression Process
32(2)
ISO/IEC MPEG-1 and -2
34(3)
Beyond MPEG2 - MPEG-4, 7 and 21
37(1)
Conditional Access
38(2)
Interactive TV
40(2)
Modulation and Error Control
42(1)
The Future
43(4)
Modulation Techniques in Digital TV Broadcasting
47(48)
Principles and Basic Definitions of Digital Modulation
47(2)
Phase Shift Keying Modulation Techniques
49(6)
Definition and Major Parameters
49(2)
Binary Phase Shift Keying
51(1)
Quadrature Phase Shift Keying
51(3)
Phase Shift Keying With Increased Spectral Efficiency
54(1)
Quadrature Amplitude Modulation
55(6)
Definitions and Major Parameters
55(4)
Methods of Generating and Detecting QAM
59(2)
Vestigial Sideband Modulation
61(5)
Basic Principles
61(2)
Vestigial Sideband Modulation for ATSC Transmission System
63(3)
Orthogonal Frequency Division Multiplexing (OFDM)
66(11)
History of OFDM
66(2)
Basic Principles of OFDM
68(3)
Spectrum Shaping of the OFDM Signals
71(4)
Developing OFDM Modems
75(2)
Demodulation of the Received Signals
77(3)
Definition of the Optimum Receiver
77(1)
Correlation Receiver
78(2)
Synchronisation Systems
80(15)
Introduction
80(2)
Maximum Likelihood Estimate Criteria for Carrier Recovery Systems
82(4)
Basic Carrier Recovery System
86(1)
Enhanced Carrier Recovery System for High-Order QPSK
87(1)
Carrier Recovery System for QPSK
87(1)
Carrier Recovery for 8-PSK Modulation
88(1)
Carrier Recovery for 16-PSK
88(2)
Implementation Consideration
90(1)
Clock Recovery Systems
91(1)
Squaring Clock Recovery Technique
92(1)
Early-Late Clock Recovery System
92(1)
Zero Crossing Clock Recovery
93(1)
Synchroniser
94(1)
Error Control Coding in Digital TV Broadcasting
95(76)
Basic Elements of Error Control Coding
95(1)
Block Codes
95(14)
Introduction
95(1)
Groups
96(1)
Rings
97(2)
Polynomial Rings
99(1)
Finite Fields
100(1)
Linear Dependence and Independence
101(1)
Subspaces
102(1)
Polynomial Rings
103(1)
Finite Fields
104(2)
Polynomial Representation
106(1)
Reducing Polynomials Modulo another polynomial
106(3)
Linear Block Codes
109(10)
The Generator Matrix and Parity Check Matrix
111(3)
Hamming Codes
114(2)
Decoding Linear Codes
116(1)
Syndrome Decoding
117(2)
Cyclic Codes
119(7)
Matrix Notation of Cyclic Codes
121(2)
Decoding of Cyclic Codes
123(1)
Syndrome Decoding
123(3)
Reed-Solomon Codes
126(8)
Encoding Reed-Solomon Codes
127(1)
Reed-Solomon Decoders
127(7)
Convolutional Codes
134(16)
Shift Register Representation
135(1)
Time Domain Approach
136(1)
The Generator Matrix
137(1)
Transform Domain Approach
138(1)
Polynomial Matrix Representation
138(1)
The case k > 1
139(2)
Systematic and Non-Systematic Convolutional Codes
141(2)
Distance Properties
143(1)
Graphical Representation
143(1)
Tree Diagram
143(1)
Trellis Diagram
144(1)
Encoder State Diagram
144(1)
Decoding of Convolutional Codes
145(2)
Optimal Decoding
147(1)
Maximum Likelihood Decoding
148(1)
Practical Encoders
149(1)
Catastrophic Encoders
149(1)
State Diagrams when k > 1
150(1)
Viterbi Decoding
150(11)
Soft Decision Viterbi Decoding
160(1)
Punctured Convolutional Codes
161(3)
Interleaving and deinterleaving
164(3)
Block Interleavers
165(1)
Convolutional Interleavers
166(1)
Trellis Coded Modulation
167(2)
Pragmatic Trellis Coded Modulation
169(2)
Existing Standards for Digital TV Broadcasting
171(32)
Major DVB Standards
171(18)
DVB-S Standard
171(5)
DSNG Standard
176(6)
DVB-C Standard
182(2)
DVB-T Standard
184(5)
Advanced Television System Committee (ATSC)
189(5)
Terrestrial Integrated Services Digital Broadcasting (ISDB-T)
194(5)
North American Cable Standard - Data Over Cable Service Interface Specifications (DOCSIS)
199(4)
Future Trends in Digital Television
203(26)
Estimation of system performance
203(2)
Modulation Techniques for Future DTV Systems
205(10)
Multi-Dimensional Modulation Formats
205(3)
Minimum Shift Keying
208(1)
Continuous Phase Modulation Schemes
209(2)
An Alternative Approach
211(4)
Soft Output Decoding Techniques
215(14)
Turbo Codes
216(1)
Turbo Convolutional Codes
216(5)
Turbo Block Codes
221(4)
Other Interative Decoding
225(1)
Soft Input Soft Output Convolutional Codes
225(1)
Soft Input Soft Output Block Codes
226(3)
References 229(18)
Index 247

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