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通信原理(英文版)(第3版) 讀者對(duì)象:高等學(xué)校有關(guān)專業(yè)的教材
本教材從適應(yīng)不同學(xué)校、不同教學(xué)計(jì)劃的教學(xué)出發(fā),顧及便于靈活選取教學(xué)內(nèi)容,將全書內(nèi)容分為兩篇。第一篇為基本內(nèi)容,需要順序?qū)W習(xí),為各學(xué)校通信工程專業(yè)本科所需的。第二篇的各章具有相對(duì)獨(dú)立性,不必須按次序?qū)W習(xí),可以按照各校和各專業(yè)的需要選用,也可以作為研究生課程選學(xué)的內(nèi)容。但是第二篇的內(nèi)容是以第一篇的內(nèi)容為基礎(chǔ)的。 本教材重點(diǎn)講述數(shù)字通信,將模擬通信的內(nèi)容縮減到最少程度。在數(shù)字通信方面的取材上,力求涵蓋最新并具有廣泛實(shí)用價(jià)值的內(nèi)容。
樊昌信,1952年畢業(yè)于北京大學(xué),西安電子科技大學(xué)教授、博士生導(dǎo)師、中國(guó)通信學(xué)會(huì)咨詢委員會(huì)委員。先后被評(píng)選為中國(guó)通信學(xué)會(huì)會(huì)士、中國(guó)電子學(xué)會(huì)會(huì)士、(美國(guó))電氣電子工程師學(xué)會(huì)終身會(huì)士(IEEE Life Fellow)。在科研領(lǐng)域有多項(xiàng)研究成果獲省、部級(jí)科技進(jìn)步一、二和三等獎(jiǎng)。發(fā)表過(guò)通信工程領(lǐng)域?qū)W術(shù)論文100余篇、著譯10余本,其中《通信原理》(1980年)一書曾獲電子工業(yè)部?jī)?yōu)秀教材特等獎(jiǎng)、國(guó)家教委優(yōu)秀教材獎(jiǎng)!锻ㄐ旁怼方滩南群蟊诲噙x為教育部普通高等教育“九五”、“十五”、“十一五”、“十二五”國(guó)家級(jí)規(guī)劃教材。
PARTⅠ
Chapter 1Introduction 11Historical Review of Communication 12Message,Information,and Signal 13Digital Communication 131Basic Concept 132Advantages of Digital Communication 133Digital Communication System Model 134Specifications of Digital Communication System 14Channel 141Wireless Channel 142Wired Channel 143Channel Models 144Influence of Channel Characteristics on Signal Transmission 15Noise in Channel 16Brief Summary Questions Exercises Chapter 2Signals 21Classification of Signals 22Characteristics of Deterministic Signals 221Characteristics in Frequency Domain 222Characteristics in Time Domain 23Characteristics of Random Signals 231Probability Distribution of Random Variable 232Probability Density of Random Variable 24Examples of Frequently Used Random Variables 25Numerical Characteristics of Random Variable 251Mathematical Expectation 252Variance 253Moment 26Random Process 261Basic Concept of Random Process 262Stationary Random Process 263Ergodicity 264Autocorrelation Function and Power Spectral Density of Stationary Random Process 27Gaussian Process 28Narrow Band Random Process 281Basic Concept of Narrow Band Random Process 282Characteristics of Narrow Band Random Process 29Sinusoidal Wave plus Narrow Band Gaussian Process 210Signal Transfer through Linear Systems 2101Basic Concept of Linear Systems 2102Deterministic Signal Transfer through Linear Systems 2103Random Signal Transfer through Linear Systems 211Brief Summary Questions Exercises Chapter 3Analog Modulation System 31Introduction 32Linear Modulation 321Amplitude Modulation (AM) 322Doublesideband Modulation (DSB) 323SingleSideband Modulation (SSB) 324Vestigial Sideband Modulation (VSB) 33Nonlinear Modulation 331Basic Principles 332Frequency Spectrum and Bandwidth of Modulated Signal 333Reception of Angular Modulated Signal 34Brief Summary Questions Exercises Chapter 4Digitization of Analog Signal 41Introduction 42Sampling of Analog Signal 421Sampling of LowPass Analog Signal 422Sampling of BandPass Analog Signal 423Analog Pulse Modulation 43Quantization of Sampled Signal 431Principles of Quantization 432Uniform Quantization 433Nonuniform Quantization 44Pulse Code Modulation 441Basic Principles of Pulse Code Modulation 442Natural Binary Code and Fold Binary Code 443Quantization Noise in PCM System 45Differential Pulse Code Modulation 451Principles of Differential Pulse Code Modulation 452Quantization Noise and Signal to Quantization Noise Ratio in DPCM System 46Delta Modulation 461Principles of Delta Modulation 462Quantization Noise in Delta Modulation System 47Brief Summary Questions Exercises Chapter 5Representation and Transmission of Baseband Digital Signal 51Introduction 52Coding Method of Character 53Waveform of Baseband Digital Signal 54Symbol Code Types of Baseband Digital Signals for Transmission 55Frequency Characteristic of Baseband Digital Signal 551Calculation of Power Spectral Density of vc(t) 552Calculation of Power Spectral Density of uc(t) 553Calculation of Power Spectral Density of s(t) 554Examples of Power Spectral Density Calculation 56Transmission and Intersymbol Interference of Baseband Digital Signal 561Model of Baseband Digital Signal Transmission System 562Intersymbol Interference and Nyquist Criterion 563Partial Response System 57Eye Pattern 58Timedomain Equalizer 581Introduction 582Fundamental Principle of Transversal Filter 583Realization of Transversal Filter 59Brief Summary Questions Exercises Chapter 6Elementary Digital Modulation System 61Introduction 62Binary Amplitude Shift Keying (2ASK) 621Basic Principle 622Power Spectral Density 623Symbol Error Probability 63Binary Frequency Shift Keying (2FSK) 631Basic Principle 632Power Spectral Density 633Minimum Frequency Space 634Symbol Error Probability 64Binary Phase Shift Keying (2PSK) 641Basic Principle 642Power Spectral Density 643Symbol Error Probability 65Binary Differential Phase Shift Keying (2DPSK) 651Basic Principle 652Power Spectral Density 653Symbol Error Probability 66Performance Comparison of Binary Digital Keying Transmission System 67Mary Digital Keying 671Mary Amplitude Keying (MASK) 672Mary Frequency Shift Keying (MFSK) 673Mary Phase Shift Keying (MPSK) 674Mary Differential Phase Shift Keying (MDPSK) 675Amplitude/Phase Combination Keying (APK) 676Examples of Mary Digital Keying Practical Systems 68Brief Summary Questions Exercises Chapter 7Synchronization 71Introduction 72Carrier Synchronization Method 721Pilot Insertion Method 722Direct Extraction Method 723Performance of Carrier Synchronization 73Bit Synchronization 731External Synchronization 732Self Synchronization 733Influence of Bit Synchronization Error on Symbol Error Probability 74Group Synchronization 741Introduction 742Concentrated Insertion Method 743Dispersed Insertion Method 744Performance of Group Synchronization 75Network Synchronization 751Introduction 752Openloop Method 753ClosedLoop Method 76Brief Summary Questions Exercises PARTⅡ Chapter 8Optimum Receiving of Digital Signal 81Statistical Characteristics of Digital Signal 82Optimum Receiving Criterion of Digital Signal 83Optimum Receiver for Deterministic Digital Signal 84Symbol Error Probability of Optimum Receiver for Deterministic Digital Signal 85Optimum Receiving of Random Phase Digital Signal 86Optimum Receiving of Fluctuation Digital Signal 87Performance Comparison of Practical Receiver and Optimum Receiver 88Matched Filtering Receiving Principle of Digital Signal 881Matched Filtering Receiving of Digital Signal 882Correlation Receiving of Digital Signal 89Optimum Baseband Transmission System 810Brief Summary Questions Exercises Chapter 9Multiplexing and Multiple Access 91Introduction 92Frequency Division Multiplexing (FDM) 93Time Division Multiplexing (TDM) 931Plesiochronous Digital Hierarchy (PDH) 932Multiple Connection and Symbol Rate Justification 933Synchronous Digital Hierarchy (SDH) 94Code Division Multiplexing (CDM) 941Basic Principles 942Orthogonal Code 943Pseudorandom Code 95Multiple Access 951Frequency Division Multiple Access (FDMA) 952Time Division Multiple Access 953Multiple Access Techniques for Local Area Networks 96Brief Summary Questions Exercises Chapter 10Channel Coding and Error Control 101Introduction 102Basic Principles of Error Control Coding 103Performance of Error Correction System 104ParityCheck Codes 105Linear Block Codes 106Cyclic Codes 1061Concept of Cyclic Codes 1062Operation of Cyclic Codes 1063Coding of Cyclic Codes 1064Decoding of Cyclic Codes 1065Truncated Cyclic Codes 1066BCH Codes 1067RS Codes 107Convolution Codes 1071Coding of Convolution Codes 1072Decoding of Convolution Codes 108Turbo Codes and LDPC Codes 109Brief Summary Questions Exercises Chapter 11Advanced Digital Bandpass Modulation and Demodulation 111Introduction 112Offset QPSK and π/4 QDPSK 1121Offset QPSK 1122π/4 QDPSK 113Minimum Shift Keying and Gaussian Minimum Shift Keying 1131Basic Principles of MSK Signals 1132Phase Continuity of MSK Signals 1133Orthogonal Expression of MSK Signals 1134Generation and Demodulation of MSK Signals 1135Power Spectrum of MSK Signals 1136Symbol Error Probability of MSK Signals 1137Gaussian MSK 114Orthogonal Frequency Division Multiplexing 1141Introduction 1142Basic Principles of OFDM 1143Implementation of OFDM 115Trellis Coded Modulation 1151Basic Concept of Trellis Coded Modulation 1152Generation of TCM Signals 1153Demodulation of TCM Signal 116Spread Spectrum Modulation 1161Introduction 1162DirectSequence Spread Spectum 1163FrequencyHopping SS 1164Synchronization of SS Code 1165Separation of Multipath 117Brief Summary Questions Exercise Chapter 12Source Coding 12.1Vector Quantization 12.2Compression Coding for Speech 12.2.1Speech Parameter Coding 12.2.2Mixed Coding 12.3Compression Coding for Image 12.3.1Compression Coding for Still Image 12.3.2Compression Coding for Moving Image 12.4Compression Coding for Digital Data 12.4.1Basic Principles 12.4.2Huffman Code 125Capacity of White Additive Gaussian Noise Channel 126Brief Summary Questions Exercises ⅩⅦChapter 13Communication Security 131Introduction 132Singlekey Cryptography Communication System 133Block and Stream Ciphers 134InformationTheoretic Approach for Cryptography 1341Perfect Security 1342Unicity Distance 1343Role of Data Compression in Cryptography 1344Diffusion and Confusion 135Data Encryption Standard 136Public Key Cryptography 1361Basic Principles 1362DiffieHellman Public Key Distribution 137RSA Algorithm 1371RSA Public Key Cryptographic System 1372Application of RSA Algorithm in Digital Signatures 138Brief Summary Questions Exercises ⅩⅧChapter 14MIMO 141Introduction 142Combination of Received Diversity Signals 143Fundamental Principles of MIMO 144Operation Mode of MIMO System 1441Space Multiplexing Mode 1442Space Diversity Mode 145Space Time Coding Technique 1451Space Time Block Code 1452Bell Layered Space Time Architecture 1453Space Time Trellis Code 1454Differential Space Time Block Code 1455Cyclic Delay Diversity 1456Time Switched Transmit Diversity 146Brief Summary Questions Exercises Appendix AParseval’s Theorem Appendix BError Function Appendix CASCII Code Appendix DCCITT No5 Code Appendix EChina Standard 7 Bit Code Appendix FBessel Functions Appendix GGalois Field GF(2m) Appendix HOftenUsed Identities and Constants Abbreviations Glossary References
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