MARC details
| 000 -LEADER |
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| fixed length control field |
14151nam a2200301 i 4500 |
| 005 - DATE AND TIME OF LATEST TRANSACTION |
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| control field |
20230918163739.0 |
| 008 - FIXED-LENGTH DATA ELEMENTS--GENERAL INFORMATION |
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| fixed length control field |
160204s2015 maua|||| |||| 00| 0 eng d |
| 020 ## - INTERNATIONAL STANDARD BOOK NUMBER |
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| International Standard Book Number |
9781118130537 |
| 040 ## - CATALOGING SOURCE |
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| Original cataloging agency |
EG-NcFUE |
| Description conventions |
rda |
| 082 04 - DEWEY DECIMAL CLASSIFICATION NUMBER |
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| Edition number |
22 |
| Classification number |
621.388 |
| Item number |
D.P.D |
| 100 1# - MAIN ENTRY--PERSONAL NAME |
|---|
| Personal name |
Dambacher, P. |
| Fuller form of name |
Paul), |
| Relator term |
author |
| Dates associated with a name |
1945- |
| 240 10 - UNIFORM TITLE |
|---|
| Uniform title |
<a href="Digitale Technik fûr Fernsehrundfunk.">Digitale Technik fûr Fernsehrundfunk.</a> |
| Language of a work |
English |
| 245 10 - TITLE STATEMENT |
|---|
| Title |
Digital terrestrial television broadcasting : |
| Remainder of title |
designs, systems, and operation / |
| Statement of responsibility, etc |
Paul Dambacher ; [translated by Horst E. von Renouard]. |
| 264 #1 - PUBLICATION, DISTRIBUTION, ETC. (IMPRINT) |
|---|
| Place of publication, distribution, etc |
Hoboken, New Jersey : |
| Name of publisher, distributor, etc |
John Wiley, |
| Date of publication, distribution, etc |
1998. |
| 264 #2 - PUBLICATION, DISTRIBUTION, ETC. (IMPRINT) |
|---|
| Place of publication, distribution, etc |
[Piscataqay, New Jersey] : |
| Name of publisher, distributor, etc |
IEEE Xplore, |
| Date of publication, distribution, etc |
[2015] |
| 300 ## - PHYSICAL DESCRIPTION |
|---|
| Extent |
xiv, 243 pages : |
| Other physical details |
illustrations ; |
| Dimensions |
24 cm. |
| 336 ## - CONTENT TYPE |
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| Content type term |
text |
| Source |
rdacontent |
| 337 ## - MEDIA TYPE |
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| Media type term |
unmediated |
| Source |
rdamedia |
| 338 ## - CARRIER TYPE |
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| Carrier type term |
volume |
| Source |
rdacarrier |
| 490 1# - SERIES STATEMENT |
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| Series statement |
The comsoc guides to communications technologies |
| 504 ## - BIBLIOGRAPHY, ETC. NOTE |
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| Bibliography, etc |
Includes bibliographical references (p. 221-229) and index. |
| 505 0# - FORMATTED CONTENTS NOTE |
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| Formatted contents note |
Preface xiii -- 1 Basic Concepts of Digital Terrestrial <br/> Television Transmission System 1 -- 1.1 Introduction and <br/> Historic Review 1 -- 1.1.1 Birth and Development of <br/> Television Black-and-White TV Era 1 -- 1.1.2 Analog Color <br/> TV Era 2 -- 1.1.3 Digital TV Era 3 -- 1.2 Major <br/> International and Regional DTV Organizations 7 -- 1.2.1 <br/> International DTV Broadcasting Standards 7 -- 1.2.2 <br/> Related International and Regional Organizations 9 -- 1.3 <br/> Composition of DTV System 11 -- 1.3.1 Constitution of DTV <br/> System 11 -- 1.3.2 Functional Layers of DTV 14 -- 1.4 <br/> Compression Layer and Multiplexing Layer 19 -- 1.4.1 Image<br/> Format 19 -- 1.4.2 Compression Modes for DTV Signal 19 -- <br/> 1.4.3 MPEG-2 for Video Compression 20 -- 1.4.4 Intraframe <br/> Coding 21 -- 1.4.5 Interframe Coding Method 23 -- 1.4.6 <br/> Audio Compression 24 -- 1.4.7 MPEG-2 Coding 25 -- 1.4.8 <br/> MPEG-2 Multiplexing 26 -- 1.4.9 Transport Stream 26 -- 1.5<br/> Current Deployment of DTTB Systems 29 -- 1.5.1 <br/> Developments of ATSC DVB-T and ISDB-T 30 -- 1.5.2 <br/> Development and Deployment of DTMB System 33 -- 1.5.3 <br/> Network Convergence with DTTB Systems 35 -- 1.6 Summary 37<br/> -- References 37 -- 2 Channel Characteristics of Digital <br/> Terrestrial Television Broadcasting Systems 39 -- 2.1 <br/> Introduction 39 -- 2.2 Mathematical Models of Wireless <br/> Radio Channel 42 -- 2.2.1 Statistical Model of Channel <br/> Impulse Response 42 -- 2.2.2 Channel Impulse Response with<br/> Deterministic Parameters 44 -- 2.3 Property of Wireless <br/> Fading Channel Parameters 46 -- 2.3.1 Multipath Delay <br/> Spread and Frequency-Selective Fading 46 -- 2.3.2 Doppler <br/> Shift and Time-Selective Fading 50 -- 2.3.3 Time- and <br/> Frequency-Selective Fading of Wireless Radio Channel 54 --<br/> 2.4 Commonly Used Statistical Models for Fading Channel 55<br/> -- 2.4.1 Rayleigh Fading Model 55 -- 2.4.2 Ricean Fading <br/> Model 56 -- 2.5 DTTB Channel Model 58 -- 2.5.1 Typical <br/> DTTB Channel Model 58 -- 2.5.2 Single-Frequency Network of<br/> Channel Model for DTTB Systems 63 -- 2.6 Summary 67 -- <br/> References 68 -- 3 Channel Coding for DTTB System 69 -- <br/> 3.1 Channel Capacity and Shannon's Channel Coding Theorem <br/> 69 -- 3.2 Error Control and Classification of Channel <br/> Coding 73 -- 3.3 Linear Block Code 75 -- 3.3.1 Basic <br/> Concept of Linear Block Code 75 -- 3.3.2 BCH Code 78 -- <br/> 3.3.3 Reed - Solomon Code 79 -- 3.4 Convolutional Codes 80<br/> -- 3.4.1 Construction and Description of Convolutional <br/> Codes 81 -- 3.4.2 Distance Property and Decoding of <br/> Convolutional Codes 84 -- 3.5 Interleaving 87 -- 3.5.1 <br/> Block Interleaving 87 -- 3.5.2 Convolutional Interleaving <br/> 88 -- 3.6 Concatenation Codes 89 -- 3.7 Parallel Codes 92 <br/> -- 3.7.1 Product Codes 92 -- 3.7.2 Turbo Codes and <br/> Iterative Decoding 94 -- 3.8 Trellis Coding and Modulation<br/> 100 -- 3.8.1 Mapping by Set Partition of TCM Codes 100 -- <br/> 3.8.2 Code Construction and Basic Principles of TCM Codes <br/> 101 -- 3.9 Low-Density Parity-Check Code 103 -- 3.9.1 <br/> Basic Concept of LDPC Codes 104 -- 3.9.2 Decoding <br/> Algorithms of LDPC Codes 106 -- 3.10 Channel Coding <br/> Adopted by Different DTV Broadcasting Standards 108 -- <br/> 3.11 Summary 110 -- References 110 -- 4 Modulation <br/> Technologies for DTTB System 113 -- 4.1 Introduction 113 -<br/> - 4.2 Digital Modulation 114 -- 4.2.1 Signal Space and Its<br/> Representation 114 -- 4.2.2 Typical Digital Modulations <br/> 117 -- 4.2.3 The Power Spectrum of Modulated Signal 124 --<br/> 4.2.4 Demodulation and Performance Evaluation 129 -- 4.2.5<br/> Variations of Digital Modulations 137 -- 4.3 Bit-<br/> Interleaved Coded Modulation 140 -- 4.3.1 BICM System <br/> Model 140 -- 4.3.2 BICM Design and Performance Evaluation <br/> 141 -- 4.3.3 BICM-ID System Model 144 -- 4.3.4 BICM-ID <br/> with Doping: Design and Performance Evaluation 145 -- <br/> 4.3.5 BICM-ID Design Based on EXIT Charts 146 -- 4.3.6 <br/> BICM-ID with LDPC Coding 147 -- 4.4 Multicarrier <br/> Modulation 148 -- 4.4.1 Principle of Orthogonal Frequency <br/> Division Multiplexing 149 -- 4.4.2 Implementation of <br/> OFDMwith Discrete Fourier Transform 151 -- 4.4.3 Guard <br/> Interval and Cyclic Prefix of OFDM 152 -- 4.4.4 Frequency <br/> Domain Property 156 -- 4.4.5 General Comparison between <br/> OFDM and Single-Carrier Modulation System 157 -- 4.5 <br/> Design Considerations of DTTB Modulation 159 -- 4.5.1 <br/> Modulation Scheme Determination 159 -- 4.5.2 Modulation <br/> Schemes in Typical DTTB Standards 160 -- 4.6 Summary 160 -<br/> - References 161 -- 5 First-Generation DTTB Standards 163 <br/>5.1 General Introduction 163 -- 5.1.1 ATSC Standard 163 --<br/> 5.1.2 DVB-T Standard 164 -- 5.1.3 ISDB-T Standard 164 -- <br/> 5.1.4 DTMB Standard 164 -- 5.2 Introduction to ATSC <br/> Standard 164 -- 5.2.1 Scrambler 166 -- 5.2.2 RS Encoding <br/> and Data Interleaving 167 -- 5.2.3 TCM Encoder and <br/> Interleaver 168 -- 5.2.4 Multiplexing 169 -- 5.2.5 Pilot <br/> Insertion and VSB Modulation 170 -- 5.3 Introduction to <br/> DVB-T Standard 171 -- 5.3.1 Channel Coding 173 -- 5.3.2 <br/> Modulation 176 -- 5.4 Introduction to ISDB-T Standard 180 <br/> -- 5.4.1 Multiplexing 184 -- 5.4.2 Channel Coding 185 -- <br/> 5.4.3 Constellation Mapping and Modulation 186 -- 5.4.4 <br/> TMCC Information 194 -- 5.5 Introduction to DTMB Standard <br/> 195 -- 5.5.1 Major System Parameters 197 -- 5.5.2 Input <br/> Data Format 198 -- 5.5.3 Scrambler 198 -- 5.5.4 FEC Coding<br/> 198 -- 5.5.5 Constellation Mapping 201 -- 5.5.6 <br/> Interleaving 203 -- 5.5.7 System Information 205 -- 5.5.8 <br/> Signal Frame Structure 206 -- 5.5.9 Frame Header (FH) 207 <br/> -- 5.5.10 Frame Body Data Processing 209 -- 5.5.11 <br/> Baseband Signal Post Processing 210 -- 5.5.12 RF Output <br/> Interface 210 -- 5.5.13 System Payload Data Throughput 213<br/> -- 5.6 Summary 213 -- References 213 -- 6 Second-<br/> Generation DTTB Standards 215 -- 6.1 Introduction to <br/> Second-Generation Digital Video Broadcasting 215 -- 6.1.1 <br/> System Structure 217 -- 6.1.2 Input Processing 217 -- <br/> 6.1.3 Bit-Interleaved Coding and Modulation 220 -- 6.1.4 <br/> Frame Builder 226 -- 6.1.5 OFDM Symbol Generation 228 -- <br/> 6.2 Introduction to DTMB-A System 235 -- 6.2.1 System <br/> Architecture 235 -- 6.2.2 Interface and Data Preprocessing<br/> 236 -- 6.2.3 Scrambling Interleaving and Modulation 238 --<br/> 6.2.4 Superframe Structure 245 -- 6.2.5 Signal Frame 247 -<br/> - 6.2.6 Synchronization Channel 248 -- 6.2.7 Transmit <br/> Diversity 251 -- 6.2.8 Baseband Postprocessing 252 -- <br/> 6.2.9 RF Signal 252 -- 6.2.10 Baseband Signal Spectrum <br/> Characteristics and Spectrum Mask 252 -- 6.2.11 System <br/> Payload Data Rate 253 -- 6.3 Summary 254 -- References 254<br/> -- 7 Design and Implementation of DTV Receiver 255 -- 7.1 <br/> Introduction 255 -- 7.2 Mathematical Principles 259 -- <br/> 7.2.1 Channel Synchronization 259 -- 7.2.2 Channel <br/> Estimation 262 -- 7.3 Single-Carrier Systems 269 -- 7.3.1 <br/> Timing Synchronization 269 -- 7.3.2 Carrier <br/> Synchronization 272 -- 7.3.3 Channel Estimation and <br/> Equalization 276 -- 7.4 Multicarrier Systems 280 -- 7.4.1 <br/> Timing Synchronization 280 -- 7.4.2 Carrier <br/> Synchronization 280 -- 7.4.3 Channel Estimation/<br/> Equalization for OFDM System 285 -- 7.5 Introduction to <br/> DTMB Inner Receiver 288 -- 7.5.1 Frame Synchronization 289<br/> -- 7.5.2 Carrier Synchronization 291 -- 7.5.3 Channel <br/> Estimation and Equalization 292 -- 7.6 Summary 297 -- <br/> References 297 -- 8 Network Planning for DTTB Systems 299 <br/> -- 8.1 Introduction 299 -- 8.2 Basic Concepts 300 -- 8.2.1<br/> Carrier-to-Noise Ratio 300 -- 8.2.2 Minimal Field Strength<br/> 300 -- 8.2.3 Cliff Effect 301 -- 8.2.4 Location Coverage <br/> Probability 301 -- 8.2.5 Protection Ratio 302 -- 8.3 <br/> Analog and Digital TV Broadcasting 303 -- 8.3.1 Comparison<br/> between Analog and Digital Transmissions 303 -- 8.3.2 <br/> Frequency Planning for Terrestrial Broadcasting 303 -- <br/> 8.3.3 Simulcast of Digital and Analog TV 304 -- 8.3.4 <br/> Frequency Utilization of Terrestrial Broadcasting 305 -- <br/> 8.4 Multiple-Frequency and Single-Frequency Networks 306 -<br/> - 8.4.1 Introduction to MFN 306 -- 8.4.2 Introduction to <br/> SFN 307 -- 8.4.3 Classification of SFNs 308 -- 8.4.4 <br/> Interference Analysis of SFN 309 -- 8.4.5 Synchronization <br/> in SFN 310 -- 8.4.6 Network Gain in SFN 312 -- 8.4.7 <br/> Application of SFN 314 -- 8.5 Transmission System of DTTB <br/> 314 -- 8.5.1 DTTB Transmitter System 316 -- 8.5.2 DTTB <br/> Exciter 318 -- 8.5.3 Power Amplifier 321 -- 8.5.4 <br/> Multiplexer 322 -- 8.5.5 Transmitting Antenna 325 -- 8.6 <br/> Signal Reception of DTTB 327 -- 8.6.1 Main Impact Factors <br/> of Physical DTTB Channel 327 -- 8.6.2 Fixed Reception 328 <br/> -- 8.6.3 Portable Reception 328 -- 8.6.4 Mobile Reception <br/> 329 -- 8.7 Diversity Techniques 329 -- 8.7.1 Various <br/> Diversity Schemes 329 -- 8.7.2 Design Principles of <br/> Diversity Schemes for DTTB System 330 -- 8.7.3 Transmit <br/> Diversity Technique 331 -- 8.7.4 Receiving Diversity 337 -<br/> - 8.8 Summary 343 -- References 343 -- 9 Performance <br/> Measurement on DTTB Systems 345 -- 9.1 Introduction 345 --<br/> 9.2 Measurement Description 345 -- 9.2.1 BER Measurement <br/> and Decision Threshold 346 -- 9.2.2 C/N Measurement 350 --<br/> 9.2.3 Input Signal Level to the Receiver 351 -- 9.2.4 <br/> Interface Parameters 351 -- 9.2.5 Multipath Models 351 -- <br/> 9.2.6 Laboratory Test 351 -- 9.3 Laboratory Test Plan <br/> Using DTMB System as Example 354 -- 9.3.1 Laboratory Test <br/> Platform 354 -- 9.3.2 Interface Setup of Test Platform 355<br/> -- 9.3.3 C/N Threshold under Gaussian Channel 355 -- 9.3.4<br/> Minimum Reception Level in Gaussian Channel 357 -- 9.3.5 <br/> Maximum Reception Level 359 -- 9.3.6 C/N Threshold in <br/> Ricean Channel 360 -- 9.3.7 C/N Threshold in Rayleigh <br/> Channel 361 -- 9.3.8 Maximum Doppler Frequency Shift in <br/> Dynamic Multipath Channel 362 -- 9.3.9 Maximum Delay <br/> Spread in Two-Path Channel with 0-dB Echo 364 -- 9.3.10 C/<br/> N Threshold in Two-Path Channel with 0-dB Echo 365 -- <br/> 9.3.11 Maximum Pulse Width of Impulse Noise Interference <br/> 366 -- 9.3.12 C/I Measurement with Cochannel and Adjacent-<br/> Channel Analog TV Signal Interference 368 -- 9.3.13 C/I <br/> Measurement with Cochannel and Adjacent-Channel DTV Signal<br/> Interference 371 -- 9.3.14 C/I Measurement with Single-<br/> Tone Interference 372 -- 9.3.15 Antiphase Noise <br/> Measurement 375 -- 9.4 Field Test Plan 376 -- 9.4.1 Field <br/> Test 376 -- 9.4.2 Objectives of Field Test 377 -- 9.4.3 <br/> Testing Signal 379 -- 9.4.4 Antenna 379 -- 9.4.5 <br/> Measurement Time 380 -- 9.4.6 Channel Characteristic <br/> Recoding 381 -- 9.4.7 Test Location 381 -- 9.4.8 Test <br/> Calibration 381 -- 9.4.9 Records and Documents 381 -- <br/> 9.4.10 Test: Instruments and Auxiliary Equipment 382 -- <br/> 9.4.11 Coverage Test Procedure 383 -- 9.4.12 Service Test <br/> Procedures 386 -- 9.4.13 Measurement Guideline of Field <br/> Test for DTTB System 389 -- 9.4.14 Field Test Platform 390<br/> -- 9.4.15 Procedure for Fixed Reception Test 390 -- 9.4.16<br/> Mobile Test 391 -- 9.5 Summary 392 -- References 392 -- 10<br/> Digital Mobile Multimedia Broadcasting Systems 393 -- 10.1<br/> Introduction 393 -- 10.2 DVB-H System 395 -- 10.2.1 Block <br/> Diagram of DVB-H System 396 -- 10.2.2 Technical Features <br/> of DVB-H System 397 -- 10.3 ATSC-M/H System 402 -- 10.3.1 <br/> Frame Structure of ATSC-M/H System 403 -- 10.3.2 ATSC-M/H <br/> System Block Diagram 403 -- 10.3.3 Frame Encoding of ATSC-<br/> M/H System 405 -- 10.3.4 Block Processor of ATSC-M/H <br/> System 406 -- 10.3.5 ATSC-M/H Trellis Encoder 406 -- 10.4 <br/> CMMB System 408 -- 10.4.1 Frame Structure of CMMB System <br/> 408 -- 10.4.2 Channel Coding of CMMB System 408 -- 10.4.3 <br/> CMMB Byte Interleaving 409 -- 10.4.4 Modulation Scheme of <br/> CMMB System 411 -- 10.4.5 Payload Data Rate of CMMB System<br/> 411 -- 10.5 DVB-NGH 413 -- 10.5.1 Alamouti Scheme 415 -- <br/> 10.5.2 eSFN Scheme 416 -- 10.5.3 eSM-PH Scheme 419 -- <br/> 10.5.4 Hybrid System 422 -- 10.6 Summary 424 -- References<br/> 426 -- Index 427. |
| 650 #0 - SUBJECT ADDED ENTRY--TOPICAL TERM |
|---|
| Topical term or geographic name as entry element |
Digital television. |
| 650 #0 - SUBJECT ADDED ENTRY--TOPICAL TERM |
|---|
| Topical term or geographic name as entry element |
Television|xTransmitters and transmission. |
| 830 #0 - SERIES ADDED ENTRY--UNIFORM TITLE |
|---|
| Title of a work |
The comsoc guides to communications technologies |
| 942 ## - ADDED ENTRY ELEMENTS (KOHA) |
|---|
| Source of classification or shelving scheme |
Dewey Decimal Classification |
| Koha item type |
Books |