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宽带移动通信原理及应用 双语版

宽带移动通信原理及应用 双语版  

出版时间:2016年版 

内容简介 

  移动通信目前已发展成为宽带无线通信的主要技 术之一,在4G标准中,许多先进的信号处理和信息传 输技术得到了应用。《宽带移动 通信原理及应用》以英、中双语形式系统地介绍了宽 带移动通信的基本原理及相关应用,主要包括:移动 通信系统介绍、宽带无线信道、数字调制技术、扩频 谱调制和OFDM调制、信道编码、均衡与分集技术、 LTE与LTE—Advanced等。 

  全书在编写上既注重基础原理的全面性,又能突 出重点,并兼顾了知识的先进性和实用性。部分章节 结合实际系统应用对宽带移动通信新技术进行了介绍 ,如软比特解码、OFDM、OFDMA和SC—FDMA、Turb。 

  和LDPC编码、MIMO和空时编码、联合的均衡与分集合 并技术、自适应调制与编码等。 

  本书前半部分为英文内容,后半部分为对应的中 文内容。 

  本书可用作电子信息类专业及其他相关专业的本 科生和研究生教材,也可供从事研究开发的工程技术 人员参考和借鉴。 

目录 

Chapter 1 Introduction to Mobile Communication Systems 

1.1 Historical introduction 

1.2 Cellular concepts 

1.2.1 Cellular structure and frequency reuse 

1.2.2 Interference and channel assignment strategies 

1.2.3 Multiple access techniques 

1.2.4 Cellular system capacity 

1.2.5 Roaming and handoff 

1.3 Trends in mobile wireless communications 

Problems 

Chapter 2 Wireless Channels in Wideband Transmission 

2.1 Reflection, diffraction and scattering 

2.2 Ideal free space propagation 

2.3 Empirical path-loss models 

2.3.1 Hata model 

2.3.2 COST 231 model 

2.3.3 UMTS30.03 path-loss models 

2.4 Path-loss Models based on ray tracing 

2.5 Shadow fading 

2.6 Multi-path fading 

2.7 Channel models of wideband wireless systems 

2.7.1 Doppler spectrum 

2.7.2 Jakes Model for generating Rayleigh fading coefficients 

2.7.3 Unit impulse responses of wireless channels 

2.7.4 Channel modeling 

2.8 Space-time channel models of wideband wireless systems 

2.8.1 Basic MIMO models in frequency selective fading channels 

2.8.2 Models based on antenna correlation matrices 

2.8.3 Models based on geographical scatter-cluster assumption 

Problems 

Chapter 3 Digital Modulation Techniques 

3.1 Representation of modulated signals 

3.2 Signal space analysis 

3.3 Modulation waveform design 

3.4 Typical linear modulation techniques 

3.4.1 BPSK 

3.4.2 QPSK 

3.4.3 MPSK 

3.4.4 16QAM and MQAM 

3.5 Demodulation and ML decision 

3.6 BER performance in AWGN 

3.6.1 Error probability and the union bound 

3.6.2 Performance in AWGN 

3.7 Log-Likelihood Ratio(LLR)and soft bit demodulation 

3.8 Performance in flat Rayleigh fading channel 

3.8.1 BER of BPSK in fiat Rayleigh fading channel 

3.8.2 SER of MQAM in flat Rayleigh fading channel 

3.9 Spectrum efficiency versus energy efficiency 

Problems 

Chapter 4 Spread Spectrum Modulation and OFDM Modulation 

4.1 DSSS modulation 

4.2 Spreading codes 

4.2.1 PN sequences 

4.2.2 Orthogonal codes 

4.2.3 CDMA ~ 

4.3 OFDM modulation 

4.3.1 Principles of OFDM 

4.3.2 Advantages of OFDM modulation 

4.3.3 Guard interval and cyclic prefix 

4.3.4 Signal detection in OFDM systems 

4.3.5 Disadvantages of OFDM 

4.4 OFDMA and SC-FDMA 

Problems 

Chapter 5 Channel Coding 

5.1 On Shannon coding theorem 

5.2 Interleaving 

5.3 Linear block codes 

5.3.1 Generic linear block codes 

5.3.2 Cyclic codes 

5.4 Low Density Parity Check (LDPC) codes 

5.4.1 Regular and irregular LDPC codes 

5.4.2 Constructions of LDPC codes 

5.4.3 Encoding of LDPC codes 

5.4.4 Decoding of LDPC codes 

5.4.5 Elimination of short circles 

5.5 Convolutional codes 

5.6 Turbo codes 

5.6.1 Encoding principles of Turbo codes 

5.6.2 Decoding of Turbo codes 

5.6.3 Max-Log-MAP and Log-MAP 

Problems 

Chapter 6 Equalization and Diversity 

6.1 Principles of equalization 

6.2 Linear equalizers 

6.3 Block-based linear equalization algorithms 

6.3.1 Zero-Forcing equalizers 

6.3.2 MMSE equalizers 

6.4 Decision feedback equalizers 

6.5 Diversity 

6.5.1 Diversity forms 

6.5.2 Combining techniques 

6.5.3 Diversity order 

6.6 RAKE receiver 

Problems 

Chapter 7 MIMO Systems and Space-Time Codes 

7.1 Smart antenna array techniques 

7.1.1 Principles of the SAA 

7.1.2 Multi-user SAA techniques in mobile systems 

7.2 MIMO systems 

7.2.1 Signal models of MIMO systems 

7.2.2 Capacity of MIMO systems 

7.2.3 Spatial diversity 

7.2.4 Spatial multiplexing 

7.3 Space-time codes 

7.3.1 Space-time code design criteria 

7.3.2 Linear space-time block codes 

7.3.3 Space-time trellis codes 

7.4 MIMO-OFDM systems 

7.4.1 MIMO-OFDM systems with spatial diversity 

7.4.2 MIMO-OFDM systems with spatial multiplexing 

7.5 Multi-user MIMO systems 

7.5.1 Multi-user MIMO-CDMA systems 

7.5.2 Multi-user MIMO-OFDM systems 

7.6 Multi-user detection and MU-MIMO 

7.6.1 Multi-user detection 

7.6.2 Single-user detection model 

7.6.3 SU-MIMO and MU-MIMO 

Problems 

Chapter 8 Adaptive Modulation and Coding 

8.1 Principles of AMC 

8.2 Parameters related to AMC 

8.2.1 SNR, error rates and throughput 

8.2.2 Reexamination of spectrum efficiency of MQPSK and MQAM 

8.3 Threshold determination 

8.3.1 Threshold determination based on BER or BLER 

8.3.2 Throughput-based threshold determination 

8.4 AMC techniques for OFDM systems and MIMO-OFDM systems 

8.4.1 Individual MCS scheduling for OFDM systems 

8.4.2 Subband-based AMC for OFDM systems 

8.4.3 AMC for MIMO-OFDM systems 

8.5 Combining AMC with HARQ 

8.5.1 Retransmission types in HARQ 

8.5.2 AMC in HARQ retransmissions 

Problems 

Chapter 9 LTE and LTE-Advaneed 

9.1 System architecture evolution 

9.1.1 Evolved packet core 

9.1.2 Evolved UMTS terrestrial radio access networks 

9.2 Physical layer descriptions 

9.2.1 Frame structure 

9.2.2 Resource block structure 

9.3 Logical channels, transport channels, and physical channels 

9.3.1 Logical channels 

9.3.2 Transport channels 

9.3.3 Physical channels 

9.3.4 Reference signals in the physical layer 

9.4 LTE transmitting schemes in the baseband 

9.4.1 Uplink transmitting schemes 

9.4.2 Downlink transmitting schemes 

9.5 Detection schemes 

9.5.1 Uplink detection 

9.5.2 Downlink detection 

9.5.3 Timing offset estimation based on DMRS 

9.5.4 Fractional frequency offset estimation based on DMRS 

9.6 LTE-Advanced 

9.6.1 Carrier aggregation 

9.6.2 Enhanced MIMO techniques 

9.6.3 Wireless relays 

9.6.4 CoMP techniques 

9.6.5 The eICIC-HN techniques 

References 

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