內容簡介
《4G:LTE/LTE-Advanced 寬帶移動通信技術(影印版)》基於獲得巨大成功的書籍《3G演進-HSPA與LTE》,新版集中關注LTE和LTE-Advanced(Rl0),對LTE的關鍵技術和LTE標準做瞭全麵的介紹,並對各種LTE技術詳細解釋其方法和采納理由。本書清晰地闡明瞭各種LTE關鍵技術,並深入地解釋瞭各種特定的LTE解決方案,因此,有助於讀者理解在移動寬帶産品和係統中如何實現和部署LTE。
包含瞭新增加到LTE無綫接入標準和技術(包括3GPPR10)中的全部細節;
清晰地解釋瞭支撐LTE的關鍵技術(包括OFDM和MIMO)的作用;
完整地涵蓋瞭提交到國際電聯無綫通信組的LTE-Advanced關鍵技術(包括LTE載波聚閤、擴展多天綫傳輸、中繼、異構網);
詳細地闡釋瞭LTE無綫接口結構、物理層、接入過程、廣播、射頻特性和係統性能。
Erik Dahlman、Stefan Parkvall和Johan Skold都是愛立信研究院資深研究員,自3G研究的初始階段就一直深入開展3G與4G技術的研發和標準化工作。他們是3G/4G領域的一流專傢,目前仍積極為3GPPLTE的標準化工作做著突齣的貢獻。
內頁插圖
目錄
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 Downlink Physical-Layer Processing.
CHAPTER 11 Uplink Physical-Layer Processing.
CHAPTER 12 Retransmission Protocols.
CHAPTER 13 Power Control, Scheduling, and Interference Handling
CHAPTER 14 Access Procedures.
CHAPTER 15 MultimediaBroadcastJMulticast Services
CHAPTER 16 Relaying
CHAPTER 17 Spectrum and RF Characteristics
CHAPTER 18 Performance
CHAPTER 19 Other Wireless Communications Systems
CHAPTER 20 Final Thoughts
References
Index
精彩書摘
The work on LTE was initiated in late 2004 with the overall aim of providing a new radio-accesstechnology focusing on packet-switched data only. The first phase of the 3GPP work on LTE was todefine a set of performance and capability targets for LTE [10]. This included targets on peak datarates, user/system throughput, spectral efficiency, and control/user-plane latency. In addition, require-ments were also set on spectrum fiexibility, as well as on interaction/compatibility with other 3GPPradio-access technologies (GSM, WCDMAfHSPA, and TD-SCDMA).
Once the targets were set, 3GPP studies on the feasibility of different technical solutions consid-ered for LTE were followed by development of the detailed specifications. The first release of theLTE specifications, release 8, was completed in the spring of 2008 and commercial network operationbegan in late 2009. Release 8 has then been followed by additional LTE releases, introducing addi-tional functionality and capabilities in different areas, as illustrated in Figure.
7.1.In parallel to the development of LTE, there has also been an evolution of the overall 3GPPnetwork architecture, termed System Architecture Evolution (SAE), including both the radio-accessnetwork and the core network. Requirements were also set on the architecture evolution, leading toa new flat radio-access-network architecture with a single type of node, the eNodeBl, as well as a newcore-network architecture. An excellent descnption of the LTE-associated core-network architecture,the Evolved Packet Core (EPC), can be found in [9].
The remaining part of this chapter provides an overview of LTE up to and including release 10.The most important technologies used by LTE release 8 - including transmission schemes, schedul-ing, multi-antenna support, and spectrum flexibility - are covered, as well as the additional featuresintroduced in LTE releases 9 and 10. The chapter can either be read on its own to get a high-leveloverview of LTE, or as an introduction to the subsequent chapters.
The following chapters, Chapters 8-18, then contain a detailed description of the LTE radio-accesstechnology. Chapter 8 provides an overview of the LTE protocol structure, including RLC, MAC, andthe physical layer, explaining the logical and physical channels, and the related data flow. The time-frequency structure on which LTE is based is covered in Chapter 9, followed by a detailed descriptionof the physical layer for downlink and uplink transmission in Chapters 10 and 11 respectively. Chapter12 contains a description of the retransmission mechanisms used in LTE, followed by a discussion onpower control, scheduling, and interference management in Chapter 13. Access procedures, necessaryfor a terminal to connect to the network, are the topic of Chapter 14. Chapter 15 covers the multi-cast/broadcast functionality of LTE and Chapter 16 describes relaying operation. Chapter 17 addresseshow radio-frequency (RF) requirements are defined in LTE, taking into account the spectrum flexibility.Finally, Chapter 18 contains an assessment of the system performance of LTE.
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前言/序言
4G:LTE/LTE-Advanced 寬帶移動通信技術(影印版) [4G LTE/LTE-Advanced for Mobile Broadband] 下載 mobi epub pdf txt 電子書 格式
4G:LTE/LTE-Advanced 寬帶移動通信技術(影印版) [4G LTE/LTE-Advanced for Mobile Broadband] 下載 mobi pdf epub txt 電子書 格式 2024
4G:LTE/LTE-Advanced 寬帶移動通信技術(影印版) [4G LTE/LTE-Advanced for Mobile Broadband] mobi epub pdf txt 電子書 格式下載 2024