附註:Includes bibliographical references (pages 229-246) and index.
Cover -- Table of Contents -- Preface -- 1. AN INTRODUCTION TO TELEVISION -- 1. Television History -- 2. The History of Radio -- 3. Television Standards -- 4. Emergence of DTV -- 5. The Business of TV -- 6. Digital Broadcasting Standards -- 2. BASIC PRINCIPLES OF DIGITAL TV BROADCASTING -- 1. Why Digital -- 2. Digital Coding of existing TV signals -- 3. The Compression Process -- 4. ISO/IEC MPEG-1 and -2 -- 5. Beyond MPEG2 ... MPEG-4, 7 and 21 -- 6. Conditional Access -- 7. Interactive TV -- 8. Modulation and Error Control -- 9. The Future -- 3. MODULATION TECHNIQUES IN DIGITAL TV BROADCASTING -- 1. Principles and Basic Definitions of Digital Modulation -- 2. Phase Shift Keying Modulation Techniques -- 3. Quadrature Amplitude Modulation -- 4. Vestigial Sideband Modulation -- 5. Orthogonal Frequency Division Multiplexing (OFDM) -- 6. Demodulation of the Received Signals -- 7. Synchronisation Systems -- 4. ERROR CONTROL CODING IN DIGITAL TV BROADCASTING -- 1. Basic Elements of Error Control Coding -- 2. Block Codes -- 3. Linear Block Codes -- 4. Cyclic Codes -- 5. Reed-Solomon Codes -- 6. Convolutional Codes -- 7. Viterbi Decoding -- 8 . Punctured Convolutional Codes -- 9 . Interleaving and deinterleaving -- 10. Trellis Coded Modulation -- 11. Pragmatic Trellis Coded Modulation -- 5. EXISTING STANDARDS FOR DIGITAL TV BROADCASTING -- 1. Major DVB Standards -- 2. Advanced Television System Committee [ATSC] -- 3. Terrestrial Integrated Services Digital Broadcasting [ISDB-T] -- 4. North American Cable Standard -- Data Over Cable Service Interface Specifications [DOCSIS] -- 6. FUTURE TRENDS IN DIGITAL TELEVISION -- 1. Estimation of system performance -- 2. Modulation Techniques for Future DTV Systems -- 3. Soft Output Decoding Techniques -- References.
摘要: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.
