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Digital terrestrial television broadcasting [electronic resource] : technology and system / edited by Jian Song, Zhixing Yang, Jun Wang

Published
Piscataway, NJ : IEEE Press ; Hoboken, NJ : Wiley, [2015]
Copyright Date
©2015
Physical Description
1 online resource : illustrations
Additional Creators
Song, Jian, Yang, Zhixing, Wang, Jun, and IEEE Communications Society
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Contents
Machine generated contents note: 1.1.Introduction and Historic Review -- 1.1.1.Birth and Development of Television Black-and-White TV Era -- 1.1.2.Analog Color TV Era -- 1.1.3.Digital TV Era -- 1.2.Major International and Regional DTV Organizations -- 1.2.1.International DTV Broadcasting Standards -- 1.2.2.Related International and Regional Organizations -- 1.3.Composition of DTV System -- 1.3.1.Constitution of DTV System -- 1.3.2.Functional Layers of DTV -- 1.4.Compression Layer and Multiplexing Layer -- 1.4.1.Image Format -- 1.4.2.Compression Modes for DTV Signal -- 1.4.3.MPEG-2 for Video Compression -- 1.4.4.Intraframe Coding -- 1.4.5.Interframe Coding Method -- 1.4.6.Audio Compression -- 1.4.7.MPEG-2 Coding -- 1.4.8.MPEG-2 Multiplexing -- 1.4.9.Transport Stream -- 1.5.Current Deployment of DTTB Systems -- 1.5.1.Developments of ATSC, DVB-T, and ISDB-T -- 1.5.2.Development and Deployment of DTMB System -- 1.5.3.Network Convergence with DTTB Systems -- 1.6.Summary -- References -- 2.1.Introduction -- 2.2.Mathematical Models of Wireless Radio Channel -- 2.2.1.Statistical Model of Channel Impulse Response -- 2.2.2.Channel Impulse Response with Deterministic Parameters -- 2.3.Property of Wireless Fading Channel Parameters -- 2.3.1.Multipath Delay Spread and Frequency-Selective Fading -- 2.3.2.Doppler Shift and Time-Selective Fading -- 2.3.3.Time-and Frequency-Selective Fading of Wireless Radio Channel -- 2.4.Commonly Used Statistical Models for Fading Channel -- 2.4.1.Rayleigh Fading Model -- 2.4.2.Ricean Fading Model -- 2.5.DTTB Channel Model -- 2.5.1.Typical DTTB Channel Model -- 2.5.2.Single-Frequency Network of Channel Model for DTTB Systems -- 2.6.Summary -- References -- 3.1.Channel Capacity and Shannon's Channel Coding Theorem -- 3.2.Error Control and Classification of Channel Coding -- 3.3.Linear Block Code -- 3.3.1.Basic Concept of Linear Block Code -- 3.3.2.BCH Code -- 3.3.3.Reed-Solomon Code -- 3.4.Convolutional Codes -- 3.4.1.Construction and Description of Convolutional Codes -- 3.4.2.Distance Property and Decoding of Convolutional Codes -- 3.5.Interleaving -- 3.5.1.Block Interleaving -- 3.5.2.Convolutional Interleaving -- 3.6.Concatenation Codes -- 3.7.Parallel Codes -- 3.7.1.Product Codes -- 3.7.2.Turbo Codes and Iterative Decoding -- 3.8.Trellis Coding and Modulation -- 3.8.1.Mapping by Set Partition of TCM Codes -- 3.8.2.Code Construction and Basic Principles of TCM Codes -- 3.9.Low-Density Parity-Check Code -- 3.9.1.Basic Concept of LDPC Codes -- 3.9.2.Decoding Algorithms of LDPC Codes -- 3.10.Channel Coding Adopted by Different DTV Broadcasting Standards -- 3.11.Summary -- References -- 4.1.Introduction -- 4.2.Digital Modulation -- 4.2.1.Signal Space and Its Representation -- 4.2.2.Typical Digital Modulations -- 4.2.3.The Power Spectrum of Modulated Signal -- 4.2.4.Demodulation and Performance Evaluation -- 4.2.5.Variations of Digital Modulations -- 4.3.Bit-Interleaved Coded Modulation -- 4.3.1.BICM System Model -- 4.3.2.BICM Design and Performance Evaluation -- 4.3.3.BICM-ID System Model -- 4.3.4.BICM-ID with Doping: Design and Performance Evaluation -- 4.3.5.BICM-ID Design Based on EXIT Charts -- 4.3.6.BICM-ID with LDPC Coding -- 4.4.Multicarrier Modulation -- 4.4.1.Principle of Orthogonal Frequency Division Multiplexing -- 4.4.2.Implementation of OFDM with Discrete Fourier Transform -- 4.4.3.Guard Interval and Cyclic Prefix of OFDM -- 4.4.4.Frequency Domain Property -- 4.4.5.General Comparison between OFDM and Single-Carrier Modulation System -- 4.5.Design Considerations of DTTB Modulation -- 4.5.1.Modulation Scheme Determination -- 4.5.2.Modulation Schemes in Typical DUB Standards -- 4.6.Summary -- References -- 5.1.General Introduction -- 5.1.1.ATSC Standard -- 5.1.2.DVB-T Standard -- 5.1.3.ISDB-T Standard -- 5.1.4.DTMB Standard -- 5.2.Introduction to ATSC Standard -- 5.2.1.Scrambler -- 5.2.2.RS Encoding and Data Interleaving -- 5.2.3.TCM Encoder and Interleaver -- 5.2.4.Multiplexing -- 5.2.5.Pilot Insertion and VSB Modulation -- 5.3.Introduction to DVB-T Standard -- 5.3.1.Channel Coding -- 5.3.2.Modulation -- 5.4.Introduction to ISDB-T Standard -- 5.4.1.Multiplexing -- 5.4.2.Channel Coding -- 5.4.3.Constellation Mapping and Modulation -- 5.4.4.TMCC Information -- 5.5.Introduction to DTMB Standard -- 5.5.1.Major System Parameters -- 5.5.2.Input Data Format -- 5.5.3.Scrambler -- 5.5.4.FEC Coding -- 5.5.5.Constellation Mapping -- 5.5.6.Interleaving -- 5.5.7.System Information -- 5.5.8.Signal Frame Structure -- 5.5.9.Frame Header (FH) -- 5.5.10.Frame Body Data Processing -- 5.5.11.Baseband Signal Post Processing -- 5.5.12.RF Output Interface -- 5.5.13.System Payload Data Throughput -- 5.6.Summary -- References -- 6.1.Introduction to Second-Generation Digital Video Broadcasting -- 6.1.1.System Structure -- 6.1.2.Input Processing -- 6.1.3.Bit-Interleaved Coding and Modulation -- 6.1.4.Frame Builder -- 6.1.5.OFDM Symbol Generation -- 6.2.Introduction to DTMB-A System -- 6.2.1.System Architecture -- 6.2.2.Interface and Data Preprocessing -- 6.2.3.Scrambling, Interleaving, and Modulation -- 6.2.4.Superframe Structure -- 6.2.5.Signal Frame -- 6.2.6.Synchronization Channel -- 6.2.7.Transmit Diversity -- 6.2.8.Baseband Postprocessing -- 6.2.9.RF Signal -- 6.2.10.Baseband Signal Spectrum Characteristics and Spectrum Mask -- 6.2.11.System Payload Data Rate -- 6.3.Summary -- References -- 7.1.Introduction -- 7.2.Mathematical Principles -- 7.2.1.Channel Synchronization -- 7.2.2.Channel Estimation -- 7.3.Single-Carrier Systems -- 7.3.1.Timing Synchronization -- 7.3.2.Carrier Synchronization -- 7.3.3.Channel Estimation and Equalization -- 7.4.Multicarrier Systems -- 7.4.1.Timing Synchronization -- 7.4.2.Carrier Synchronization -- 7.4.3.Channel Estimation/Equalization for OFDM System -- 7.5.Introduction to DTMB Inner Receiver -- 7.5.1.Frame Synchronization -- 7.5.2.Carrier Synchronization -- 7.5.3.Channel Estimation and Equalization -- 7.6.Summary -- References -- 8.1.Introduction -- 8.2.Basic Concepts -- 8.2.1.Carrier-to-Noise Ratio -- 8.2.2.Minimal Field Strength -- 8.2.3.Cliff Effect -- 8.2.4.Location Coverage Probability -- 8.2.5.Protection Ratio -- 8.3.Analog and Digital TV Broadcasting -- 8.3.1.Comparison between Analog and Digital Transmissions -- 8.3.2.Frequency Planning for Terrestrial Broadcasting -- 8.3.3.Simulcast of Digital and Analog TV -- 8.3.4.Frequency Utilization of Terrestrial Broadcasting -- 8.4.Multiple-Frequency and Single-Frequency Networks -- 8.4.1.Introduction to MFN -- 8.4.2.Introduction to SFN -- 8.4.3.Classification of SFNs -- 8.4.4.Interference Analysis of SFN -- 8.4.5.Synchronization in SFN -- 8.4.6.Network Gain in SFN -- 8.4.7.Application of SFN -- 8.5.Transmission System of DTTB -- 8.5.1.DTTB Transmitter System -- 8.5.2.DTTB Exciter -- 8.5.3.Power Amplifier -- 8.5.4.Multiplexer -- 8.5.5.Transmitting Antenna -- 8.6.Signal Reception of DTTB -- 8.6.1.Main Impact Factors of Physical DTTB Channel -- 8.6.2.Fixed Reception -- 8.6.3.Portable Reception -- 8.6.4.Mobile Reception -- 8.7.Diversity Techniques -- 8.7.1.Various Diversity Schemes -- 8.7.2.Design Principles of Diversity Schemes for DTTB System -- 8.7.3.Transmit Diversity Technique -- 8.7.4.Receiving Diversity -- 8.8.Summary -- References -- 9.1.Introduction -- 9.2.Measurement Description -- 9.2.1.BER Measurement and Decision Threshold -- 9.2.2.C/N Measurement -- 9.2.3.Input Signal Level to the Receiver -- 9.2.4.Interface Parameters -- 9.2.5.Multipath Models -- 9.2.6.Laboratory Test -- 9.3.Laboratory Test Plan Using DTMB System as Example -- 9.3.1.Laboratory Test Platform -- 9.3.2.Interface Setup of Test Platform -- 9.3.3.C/N Threshold under Gaussian Channel -- 9.3.4.Minimum Reception Level in Gaussian Channel -- 9.3.5.Maximum Reception Level -- 9.3.6.C/N Threshold in Ricean Channel -- 9.3.7.C/N Threshold in Rayleigh Channel -- 9.3.8.Maximum Doppler Frequency Shift in Dynamic Multipath Channel -- 9.3.9.Maximum Delay Spread in Two-Path Channel with 0-dB Echo -- 9.3.10.C/N Threshold in Two-Path Channel with 0-dB Echo -- 9.3.11.Maximum Pulse Width of Impulse Noise Interference -- 9.3.12.C/I Measurement with Cochannel and Adjacent-Channel Analog TV Signal Interference -- 9.3.13.C/I Measurement with Cochannel and Adjacent-Channel DTV Signal Interference -- 9.3.14.C/I Measurement with Single-Tone Interference -- 9.3.15.Antiphase Noise Measurement -- 9.4.Field Test Plan -- 9.4.1.Field Test -- 9.4.2.Objectives of Field Test -- 9.4.3.Testing Signal -- 9.4.4.Antenna -- 9.4.5.Measurement Time -- 9.4.6.Channel Characteristic Recoding -- 9.4.7.Test Location -- 9.4.8.Test Calibration -- 9.4.9.Records and Documents -- 9.4.10.Test: Instruments and Auxiliary Equipment -- 9.4.11.Coverage Test Procedure -- 9.4.12.Service Test Procedures -- 9.4.13.Measurement Guideline of Field Test for DTTB System -- 9.4.14.Field Test Platform -- 9.4.15.Procedure for Fixed Reception Test -- 9.4.16.Mobile Test -- 9.5.Summary -- References -- 10.1.Introduction -- 10.2.DVB-H System -- 10.2.1.Block Diagram of DVB-H System -- 10.2.2.Technical Features of DVB-H System -- 10.3.ATSC-M/H System -- 10.3.1.Frame Structure of ATSC-M/H System -- 10.3.2.ATSC-M/H System Block Diagram -- 10.3.3.Frame Encoding of ATSC-M/H System -- 10.3.4.Block Processor of ATSC-M/H System -- 10.3.5.ATSC-M/H Trellis Encoder -- 10.4.CMMB System -- 10.4.1.Frame Structure of CMMB System -- 10.4.2.Channel Coding of CMMB System -- 10.4.3.CMMB Byte Interleaving -- 10.4.4.Modulation Scheme of CMMB System -- 10.4.5.Payload Data Rate of CMMB System -- 10.5.DVB-NGH -- 10.5.1.Alamouti Scheme -- 10.5.2.eSFN Scheme -- 10.5.3.eSM-PH Scheme -- 10.5.4.Hybrid System -- 10.6.Summary -- References.
Subject(s)
ISBN
9781119084358 electronic bk.
1119084350 electronic bk.
9781119084365 electronic bk.
1119084369 electronic bk.
9781118130537
Note
AVAILABLE ONLINE TO AUTHORIZED PSU USERS.
Bibliography Note
Includes bibliographical references and index.
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