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『簡體書』数字通信(第五版)(英文版)

書城自編碼: 3432927
分類: 簡體書→大陸圖書→教材高职高专教材
作 者: [美]John G.,Proakis[普罗科斯]Masoud
國際書號(ISBN): 9787121367519
出版社: 电子工业出版社
出版日期: 2019-10-01

頁數/字數: /
書度/開本: 16开 釘裝: 平塑

售價:NT$ 1254

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內容簡介:
本书是数字通信领域的一本优秀教材,既论述了数字通信的基本理论,又对数字通信的新技术进行了比较深入的分析。本书采用信号空间、随机过程的级数展开和等效低通等分析方法,根据*接收准则,先后讨论并分析了在加性高斯白噪声(AWGN)信道、带限信道(有符号间干扰和加性噪声)和多径衰落信道三种基本的典型信道条件下的数字信号可靠高效传输及*接收问题;从信号传输角度介绍了通信信号、数字调制、自适应均衡、多天线系统和*接收等内容;从信息传输角度介绍了信息论基础、信道容量和信道编码等内容。
關於作者:
John G. Proakis:美国东北大学电子与计算机工程系教授,其研究方向为数字通信与数字信号处理,主要包括自适应滤波、自适应通信系统、自适应均衡技术、多径衰落信道的通信、雷达侦测、信号参数估计、通信系统建模与仿真、*优化技术、统计分析等,已多次出版《数字通信》《数字信号处理》等经典著作。
John G. Proakis:美国东北大学电子与计算机工程系教授,其研究方向为数字通信与数字信号处理,主要包括自适应滤波、自适应通信系统、自适应均衡技术、多径衰落信道的通信、雷达侦测、信号参数估计、通信系统建模与仿真、*优化技术、统计分析等,已多次出版《数字通信》《数字信号处理》等经典著作。
目錄
Preface
Chapter 1 Introduction 1
1.1 Elements of a Digital Communication System 1
1.2 Communication Channels and Their Characteristics 3
1.3 Mathematical Models for Communication Channels 10
1.4 A Historical Perspective in the Development of Digital Communications 12
1.5 Overview of the Book 15
1.6 Bibliographical Notes and References 15
Chapter 2 Deterministic and Random Signal Analysis 17
2.1 Bandpass and Lowpass Signal Representation 18
2.1?C1 Bandpass and Lowpass Signals 2.1?C2 Lowpass Equivalent of Bandpass Signals 2.1?C3 Energy Considerations 2.1?C4 Lowpass Equivalent of a Bandpass System
2.2 Signal Space Representation of Waveforms 28
2.2?C1 Vector Space Concepts 2.2?C2 Signal Space Concepts 2.2?C3 Orthogonal Expansions of Signals 2.2?C4 Gram-Schmidt Procedure
2.3 Some Useful Random Variables 40
2.4 Bounds on Tail Probabilities 56
2.5 Limit Theorems for Sums of Random Variables 63
2.6 Complex Random Variables 63
2.6?C1 Complex Random Vectors
2.7 Random Processes 66
2.7?C1 Wide-Sense Stationary Random Processes 2.7?C2 Cyclostationary Random Processes 2.7?C3 Proper and Circular Random Processes 2.7?C4 Markov Chains
2.8 Series Expansion of Random Processes 74
2.8?C1 Sampling Theorem for Band-Limited Random Processes 2.8?C2 The Karhunen-Love Expansion
2.9 Bandpass and Lowpass Random Processes 78
2.10 Bibliographical Notes and References 82
Problems 82
Chapter 3 Digital Modulation Schemes 95
3.1 Representation of Digitally Modulated Signals 95
3.2 Memoryless Modulation Methods 97
3.2?C1 Pulse Amplitude Modulation PAM 3.2?C2 Phase Modulation 3.2?C3 Quadrature Amplitude Modulation 3.2?C4 Multidimensional Signaling
3.3 Signaling Schemes with Memory 114
3.3?C1 Continuous-Phase Frequency-Shift Keying CPFSK 3.3?C2 Continuous-Phase Modulation CPM
3.4 Power Spectrum of Digitally Modulated Signals 131
3.4?C1 Power Spectral Density of a Digitally Modulated Signal with Memory 3.4?C2 Power Spectral Density of Linearly Modulated Signals 3.4?C3 Power Spectral Density of Digitally Modulated Signals with Finite Memory 3.4?C4 Power Spectral Density of Modulation Schemes with a Markov Structure 3.4?C5 Power Spectral Densities of CPFSK and CPM Signals
3.5 Bibliographical Notes and References 148
Problems 148
Chapter 4 Optimum Receivers for AWGN Channels 160
4.1 Waveform and Vector Channel Models 160
4.1?C1 Optimal Detection for a General Vector Channel
4.2 Waveform and Vector AWGN Channels 167
4.2?C1 Optimal Detection for the Vector AWGN Channel 4.2?C2 Implementation of the Optimal Receiver for AWGN Channels 4.2?C3 A Union Bound on the Probability of Error of Maximum Likelihood Detection
4.3 Optimal Detection and Error Probability for Band-Limited Signaling 188
4.3?C1 Optimal Detection and Error Probability for ASK or PAM Signaling 4.3?C2 Optimal Detection and Error Probability for PSK Signaling 4.3?C3 Optimal Detection and Error Probability for QAM Signaling 4.3?C4 Demodulation and Detection
4.4 Optimal Detection and Error Probability for Power-Limited Signaling 203
4.4?C1 Optimal Detection and Error Probability for Orthogonal Signaling 4.4?C2 Optimal Detection and Error Probability for Biorthogonal Signaling 4.4?C3 Optimal Detection and Error Probability for Simplex Signaling
4.5 Optimal Detection in Presence of Uncertainty: Noncoherent Detection 210
4.5?C1 Noncoherent Detection of Carrier Modulated Signals 4.5?C2 Optimal Noncoherent Detection of FSK Modulated Signals 4.5?C3 Error Probability of Orthogonal Signaling with Noncoherent Detection 4.5?C4 Probability of Error for Envelope Detection of Correlated Binary Signals 4.5?C5 Differential PSK DPSK
4.6 A Comparison of Digital Signaling Methods 226
4.6?C1 Bandwidth and Dimensionality
4.7 Lattices and Constellations Based on Lattices 230
4.7?C1 An Introduction to Lattices 4.7?C2 Signal Constellations from Lattices
4.8 Detection of Signaling Schemes with Memory 242
4.8?C1 The Maximum Likelihood Sequence Detector
4.9 Optimum Receiver for CPM Signals 246
4.9?C1 Optimum Demodulation and Detection of CPM 4.9?C2 Performance of CPM Signals 4.9?C3 Suboptimum Demodulation and Detection of CPM Signals
4.10 Performance Analysis for Wireline and Radio Communication Systems 259
4.10?C1 Regenerative Repeaters 4.10?C2 Link Budget Analysis in Radio Communication Systems
4.11 Bibliographical Notes and References 265
Problems 266
Chapter 5 Carrier and Symbol Synchronization 290
5.1 Signal Parameter Estimation 290
5.1?C1 The Likelihood Function 5.1?C2 Carrier Recovery and Symbol Synchronization in Signal Demodulation
5.2 Carrier Phase Estimation 295
5.2?C1 Maximum-Likelihood Carrier Phase Estimation 5.2?C2 The Phase-Locked Loop 5.2?C3 Effect of Additive Noise on the Phase Estimate 5.2?C4 Decision-Directed Loops 5.2?C5 Non-Decision-Directed Loops
5.3 Symbol Timing Estimation 315
5.3?C1 Maximum-Likelihood Timing Estimation 5.3?C2 Non-Decision-Directed Timing Estimation
5.4 Joint Estimation of Carrier Phase and Symbol Timing 321
5.5 Performance Characteristics of ML Estimators 323
5.6 Bibliographical Notes and References 326
Problems 327
Chapter 6 An Introduction to Information Theory 330
6.1 Mathematical Models for Information Sources 331
6.2 A Logarithmic Measure of Information 332
6.3 Lossless Coding of Information Sources 335
6.3?C1 The Lossless Source Coding Theorem 6.3?C2 Lossless Coding Algorithms
6.4 Lossy Data Compression 348
6.4?C1 Entropy and Mutual Information for Continuous Random Variables 6.4?C2 The Rate Distortion Function
6.5 Channel Models and Channel Capacity 354
6.5?C1 Channel Models 6.5?C2 Channel Capacity
6.6 Achieving Channel Capacity with Orthogonal Signals 367
6.7 The Channel Reliability Function 369
6.8 The Channel Cutoff Rate 371
6.8?C1 Bhattacharyya and Chernov Bounds 6.8?C2 Random Coding
6.9 Bibliographical Notes and References 380
Problems 381
Chapter 7 Linear Block Codes 400
7.1 Basic De?nitions 401
7.1?C1 The Structure of Finite Fields 7.1?C2 Vector Spaces
7.2 General Properties of Linear Block Codes 411
7.2?C1 Generator and Parity Check Matrices 7.2?C2 Weight and Distance for Linear Block Codes 7.2?C3 The Weight Distribution Polynomial 7.2?C4 Error Probability of Linear Block Codes
7.3 Some Speci?c Linear Block Codes 420
7.3?C1 Repetition Codes 7.3?C2 Hamming Codes 7.3?C3 Maximum-Length Codes 7.3?C4 Reed-Muller Codes 7.3?C5 Hadamard Codes 7.3?C6 Golay Codes
7.4 Optimum Soft Decision Decoding of Linear Block Codes 424
7.5 Hard Decision Decoding of Linear Block Codes 428
7.5?C1 Error Detection and Error Correction Capability of Block Codes 7.5?C2 Block and Bit Error Probability for Hard Decision Decoding
7.6 Comparison of Performance between Hard Decision and Soft Decision Decoding 436
7.7 Bounds on Minimum Distance of Linear Block Codes 440
7.7?C1 Singleton Bound 7.7?C2 Hamming Bound 7.7?C3 Plotkin Bound 7.7?C4 Elias Bound 7.7?C5 McEliece-Rodemich-Rumsey-Welch MRRW Bound 7.7?C6 Varshamov-Gilbert Bound
7.8 Modi?ed Linear Block Codes 445
7.8?C1 Shortening and Lengthening 7.8?C2 Puncturing and Extending 7.8?C3 Expurgation and Augmentation
7.9 Cyclic Codes 447
7.9?C1 Cyclic Codes De?nition and Basic Properties 7.9?C2 Systematic Cyclic Codes 7.9?C3 Encoders for Cyclic Codes 7.9?C4 Decoding Cyclic Codes 7.9?C5 Examples of Cyclic Codes
7.10 Bose-Chaudhuri-Hocquenghem BCH Codes 463
7.10?C1 The Structure of BCH Codes 7.10?C2 Decoding BCH Codes
7.11 Reed-Solomon Codes 471
7.12 Coding for Channels with Burst Errors 475
7.13 Combining Codes 477
7.13?C1 Produc
內容試閱
P R E F A C E
It is a pleasure to welcome Professor Masoud Salehi as a coauthor to the ?fth edition of Digital Communications. This new edition has undergone a major revision and reorganization of topics, especially in the area of channel coding and decoding. A new chapter on multiple-antenna systems has been added as well.
The book is designed to serve as a text for a ?rst-year graduate-level course for students in electrical engineering. It is also designed to serve as a text for self-study and as a reference book for the practicing engineer involved in the design and analysis of digital communications systems. As to background, we presume that the reader has a thorough understanding of basic calculus and elementary linear systems theory and prior knowledge of probability and stochastic processes.
Chapter 1 is an introduction to the subject, including a historical perspective and a description of channel characteristics and channel models.
Chapter 2 contains a review of deterministic and random signal analysis, including bandpass and lowpass signal representations, bounds on the tail probabilities of random variables, limit theorems for sums of random variables, and random processes.
Chapter 3 treats digital modulation techniques and the power spectrum of digitally modulated signals.
Chapter 4 is focused on optimum receivers for additive white Gaussian noise AWGN channels and their error rate performance. Also included in this chapter is an introduction to lattices and signal constellations based on lattices, as well as link budget analyses for wireline and radio communication systems.
Chapter 5 is devoted to carrier phase estimation and time synchronization methods based on the maximum-likelihood criterion. Both decision-directed and non-decision-directed methods are described.
Chapter 6 provides an introduction to topics in information theory, including lossless source coding, lossy data compression, channel capacity for different channel models, and the channel reliability function.
Chapter 7 treats linear block codes and their properties. Included is a treatment of cyclic codes, BCH codes, Reed-Solomon codes, and concatenated codes. Both soft decision and hard decision decoding methods are described, and their performance in AWGN channels is evaluated.
Chapter 8 provides a treatment of trellis codes and graph-based codes, including convolutional codes, turbo codes, low density parity check LDPC codes, trellis codes for band-limited channels, and codes based on lattices. Decoding algorithms are also treated, including the Viterbi algorithm and its performance on AWGN channels, the BCJR algorithm for iterative decoding of turbo codes, and the sum-product algorithm.
Chapter 9 is focused on digital communication through band-limited channels. Topics treated in this chapter include the characterization and signal design for band-limited channels, the optimum receiver for channels with intersymbol interference and AWGN, and suboptimum equalization methods, namely, linear equalization, decision-feedback equalization, and turbo equalization.
Chapter 10 treats adaptive channel equalization. The LMS and recursive least-squares algorithms are described together with their performance characteristics. This chapter also includes a treatment of blind equalization algorithms.
Chapter 11 provides a treatment of multichannel and multicarrier modulation. Topics treated include the error rate performance of multichannel binary signal and M-ary orthogonal signals in AWGN channels; the capacity of a nonideal linear ?lter channel with AWGN; OFDM modulation and demodulation; bit and power allocation in an OFDM system; and methods to reduce the peak-to-average power ratio in OFDM.
Chapter 12 is focused on spread spectrum signals and systems, with emphasis on direct sequence and frequency-hopped spread spectrum systems and their performance. The bene?ts of coding in the design of spread spectrum signals is emphasized throughout this chapter.
Chapter 13 treats communication through fading channels, including the characterization of fadi

 

 

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