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4G:LTE/LTE-Advanced 宽带移动通信技术(影印版)(英文)  下载

4G:LTE/LTE-Advanced 宽带移动通信技术(影印版)(英文)
作者:(瑞典)达尔曼 著
出版时间:2012年版
内容简介
《4G:LTE/LTE-Advanced 宽带移动通信技术(影印版)(英文)》基于获得巨大成功的书籍《3G演进-HSPA与LTE》,新版集中关注LTE和LTE-Advanced(Rl0),对LTE的关键技术和LTE标准做了全面的介绍,并对各种LTE技术详细解释其方法和采纳理由。本书清晰地阐明了各种LTE关键技术,并深入地解释了各种特定的LTE解决方案,因此,有助于读者理解在移动宽带产品和系统中如何实现和部署LTE。
包含了最新增加到LTE无线接入标准和技术(包括3GPPR10)中的全部细节;
清晰地解释了支撑LTE的关键技术(包括OFDM和MIMO)的作用;
完整地涵盖了提交到国际电联无线通信组的LTE-Advanced关键技术(包括LTE载波聚合、扩展多天线传输、中继、异构网);
详细地阐释了LTE无线接口结构、物理层、接入过程、广播、射频特性和系统性能。
Erik Dahlman、Stefan Parkvall和Johan Skold都是爱立信研究院资深研究员,自3G研究的初始阶段就一直深入开展3G与4G技术的研发和标准化工作。他们是3G/4G领域的一流专家,目前仍积极为3GPPLTE的标准化工作做着突出的贡献。
目录
Preface
Acknowledgements
Abbreviations and Acronyms
CHAPTER 1 Background of LTE
1.1 Introduction
1.2 Evolution of Mobile Systems Before LTE
1.2.1 The First 3G Standardization
1.3 ITU Activities
1.3.1 IMT-2000 and IMT-Advanced
1.3.2 Spectrum for IMT Systems
1.4 Drivers for LTE
1.5 Standardization of LTE
1.5.1 The Standardization Process
1.5.2 The 3GPP Process
1.5.3 The 3G Evolution to 4G
CHAPTER 2 High Data Rates in Mobile Communication
2.1 High Data Rates: Fundamental Constraints
2.1.1 High Data Rates in Noise-Limited Scenarios
2.1.2 Higher Data Rates in Interference-Limited Scenarios
2.2 Higher Data Rates Within a Limited Bandwidth: Higher-Order Modulation
2.2.1 Higher-Order Modulation in Combination with Channel Coding
2.2.2 Variations in Instantaneous Transmit Power
2.3 Wider Bandwidth Including Multi-Carrier Transmission
2.3.1 Multi-Carrier Transmission
CHAPTER 3 0FDM Transmission
3.1 Basic Principles of OFDM
3.2 OFDM Demodulation
3.3 OFDM Implementation Using IFFT/FFT Processing
3.4 Cyclic-prefix Insertion
3.5 Frequency-Domain Model of OFDM Transmission
3.6 Channel Estimation and Reference Symbols
3.7 Frequency Diversity with OFDM: Importance of Channel Coding
3.8 Selection of Basic OFDM Parameters
3.8.10FDM Subcarrier Spacing
3.8.2 Number of Subcarriers
3.8.3 Cyclic-Prefix Length
3.9 Variations in Instantaneous Transmission Power
3.10 OFDM as a User-Multiplexing and Multiple-Access Scheme
3.1 1 Multi-Cell Broadcast/Multicast Transmission and OFDM
CHAPTER 4 Wider-Band "Single-Carrier" Transmission
4.1 Equalization Against Radio-Channel Frequency Selectivity
4.1.1 Time-Domain Linear Equalization
4.1.2 Frequency-Domain Equalization
4.1.3 Other Equalizer Strategies
4.2 Uplink FDMA with Flexible Bandwidth Assignment
4.3 DFT-Spread OFDM
4.3.1 Basic Principles
4.3.2 DFTS-OFDM Receiver
4.3.3 User Multiplexing with DFTS-OFDM
4.3.4 Distributed DFFS-OFDM
CHAPTER 5 Multi-Antenna Techniques
5.1 Multi-Antenna Configurations
5.2 Benefits of Multi-Antenna Techniques
5.3 Multiple Receive Antennas
5.4 Multiple Transmit Antennas
5.4.1 Transmit-Antenna Diversity
5.4.2 Transmitter-Side Beam-Forming
5.5 Spatial Multiplexing
5.5.1 Basic Principles
5.5.2 Precoder-Based Spatial Multiplexing
5.5.3 Nonlinear Receiver Processing
CHAPTER 6 Scheduling, Link Adaptation, and Hybrid ARQ
6.1 Link Adaptation: Power and Rate Control
6.2 Channel-Dependent Scheduling
6.2.1 Downlink Scheduling
6.2.2 Uplink Scheduling
6.2.3 Link Adaptation and Channel-Dependent Scheduling in the Frequency Domain
6.2.4 Acquiring on Channel-State Information
6.2.5 Traffic Behavior and Scheduling
……
CHAPTER 7 LTE Radio Access: An Overview
CHAPTER 8 Radio-Interface Architecture.
CHAPTER 9 Physical Transmission Resources
CHAPTER 10 Do

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