Overview

The Definitive Guide to LTE Technology   Long-Term Evolution (LTE) is the next step in the GSM evolutionary path beyond 3G technology, and it is strongly positioned to be the dominant global standard for 4G cellular networks. LTE also represents the first generation of cellular networks to be based on a flat IP architecture and is designed to seamlessly support a variety of different services, such as broadband data, voice, and multicast video. Its design incorporates many of the key innovations of digital communication, such as MIMO (multiple input multiple output) and OFDMA (orthogonal frequency division multiple access), that mandate new skills to plan, build, and deploy an LTE network.   In Fundamentals of LTE, four leading experts from academia and industry explain the technical foundations of LTE in a tutorial style— providing a comprehensive overview of the standards. Following the same approach that made their recent Fundamentals of WiMAX successful, the authors offer a complete framework for understanding and evaluating LTE.   Topics include Cellular wireless history and evolution: Technical advances, market drivers, and foundational networking and communications technologies Multicarrier modulation theory and practice: OFDM system design, peak-to-average power ratios, and SC-FDE solutions Frequency Domain Multiple Access: OFDMA downlinks, SC-FDMA uplinks, resource allocation, and LTE-specific implementation Multiple antenna techniques and tradeoffs: spatial diversity, interference cancellation, spatial multiplexing, and multiuser/networked MIMO LTE standard overview: air interface protocol, channel structure, and physical layers Downlink and uplink transport channel processing: channel encoding, modulation mapping, Hybrid ARQ, multi-antenna processing, and more Physical/MAC layer procedures and scheduling: channel-aware scheduling, closed/open-loop multi-antenna processing, and more Packet flow, radio resource, and mobility management: RLC, PDCP, RRM, and LTE radio access network mobility/handoff procedures

Full Product Details

Author:   Arunabha Ghosh ,  Jun Zhang ,  Jeffrey G. Andrews ,  Rias Muhamed
Publisher:   Pearson Education (US)
Imprint:   Prentice Hall
Dimensions:   Width: 18.30cm , Height: 2.90cm , Length: 23.60cm
Weight:   0.870kg
ISBN:  

9780137033119

ISBN 10:   0137033117
Pages:   464
Publication Date:   23 September 2010
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Hardback
Publisher's Status:   Out of Print
Availability:   Awaiting stock  

Table of Contents

Foreword         xvii Preface         xix Acknowledgments         xxi About the Authors         xxiii List of Acronyms         xxv   Chapter 1: Evolution of Cellular Technologies         1 1.1 Introduction   1 1.2 Evolution of Mobile Broadband   3 1.3 The Case for LTE/SAE   23 1.4 Key Enabling Technologies and Features of LTE   28 1.5 LTE Network Architecture   33 1.6 Spectrum Options and Migration Plans for LTE   35 1.7 Future of Mobile Broadband—Beyond LTE   39 1.8 Summary and Conclusions   41   Part I: LTE Tutorials          45 Chapter 2: Wireless Fundamentals          47 2.1 Communication System Building Blocks   47 2.2 The Broadband Wireless Channel: Path Loss and Shadowing   48 2.3 Cellular Systems   56 2.4 The Broadband Wireless Channel: Fading   62 2.5 Modelling Broadband Fading Channels   69 2.6 Mitigation of Narrowband Fading   82 2.7 Mitigation of Broadband Fading   92 2.8 Chapter Summary   94   Chapter 3: Multicarrier Modulation         99 3.1 The Multicarrier Concept   100 3.2 OFDM Basics   103 3.3 OFDM in LTE   109 3.4 Timing and Frequency Synchronization   110 3.5 The Peak-to-Average Ratio   116 3.6 Single-Carrier Frequency Domain Equalization (SC-FDE)   124 3.7 The Computational Complexity Advantage of OFDM and SC-FDE   127 3.8 Chapter Summary   130   Chapter 4: Frequency Domain Multiple Access: OFDMA and SC-FDMA         133 4.1 Multiple Access for OFDM Systems   134 4.2 Orthogonal Frequency Division Multiple Access (OFDMA)   138 4.3 Single-Carrier Frequency Division Multiple Access (SC-FDMA)   142 4.4 Multiuser Diversity and Opportunistic Scheduling   144 4.5 OFDMA and SC-FDMA in LTE   152 4.6 OFDMA System Design Considerations   155 4.7 Chapter Summary   160   Chapter 5: Multiple Antenna Transmission and Reception         167 5.1   Spatial Diversity Overview   168 5.2   Receive Diversity   171 5.3   Transmit Diversity   174 5.4   Interference Cancellation Suppression and Signal Enhancement   186 5.5   Spatial Multiplexing 192 5.6   How to Choose Between Diversity, Interference Suppression, and Spatial Multiplexing   200 5.7   Channel Estimation and Feedback for MIMO and MIMO-OFDM   202 5.8   Practical Issues That Limit MIMO Gains   208 5.9   Multiuser and Networked MIMO Systems   209 5.10 An Overview of MIMO in LTE   213 5.11 Chapter Summary   215   Part II: The LTE Standard 225 Chapter 6: Overview and Channel Structure of LTE         227 6.1 Introduction to LTE   228 6.2 Hierarchical Channel Structure of LTE   234 6.3 Downlink OFDMA Radio Resources   241 6.4 Uplink SC-FDMA Radio Resources   251 6.5 Summary and Conclusions   255   Chapter 7: Downlink Transport Channel Processing         257 7.1 Downlink Transport Channel Processing Overview   257 7.2 Downlink Shared Channels   268 7.3 Downlink Control Channels   276 7.4 Broadcast Channels   283 7.5 Multicast Channels   284 7.6 Downlink Physical Signals   285 7.7 H-ARQ in the Downlink   290 7.8 Summary and Conclusions   293   Chapter 8: Uplink Transport Channel Processing         295 8.1 Uplink Transport Channel Processing Overview   296 8.2 Uplink Shared Channels   298 8.3 Uplink Control Information   301 8.4 Uplink Reference Signals   309 8.5 Random Access Channels   313 8.6 H-ARQ in the Uplink   315 8.7 Summary and Conclusions   317   Chapter 9: Physical Layer Procedures and Scheduling         319 9.1   Hybrid-ARQ Feedback   319 9.2   Channel Quality Indicator (CQI) Feedback   322 9.3   Precoder for Closed-Loop MIMO Operations   333 9.4   Uplink Channel Sounding   337 9.5   Buffer Status Reporting in Uplink   337 9.6   Scheduling and Resource Allocation   339 9.7   Semi-persistent Scheduling for VoIP   344 9.8   Cell Search 346 9.9   Random Access Procedures 348 9.10 Power Control in Uplink 350 9.11 Summary and Conclusions 352   Chapter 10: Data Flow, Radio Resource Management, and Mobility Management         355 10.1 PDCP Overview   359 10.2 MAC/RLC Overview   363 10.3 RRC Overview   369 10.4 Mobility Management   371 10.5 Inter-cell Interference Coordination   377 10.6 Summary and Conclusions   380   Index          383

Reviews

Fundamentals of LTE is a clear yet detailed introduction to the 3GPP Long-Term Evolution. I would recommend it both to those wishing to get up to speed on the fundamentals of LTE and those who are already involved but in need of a reference for this critical technology. --Dr. Alan Gatherer CTO of Baseband System-on-Chip Huawei Excellent ... A comprehensive and in-depth treatment of what is likely to become the dominant world broadband wireless standard. --Dr. Reinaldo Valenzuela Director of Wireless Communications Research Bell Labs, Alcatel-Lucent Fundamentals of LTE is a well-written and self-contained book featuring a unique blend of leading industry and academic perspectives. Comprehensive and highly accessible. --Dr. Angel Lozano Professor, Information & Communication Technologies University of Pompeu, Fabra This book offers a good entry point to the world of LTE for newcomers, since it contains useful background material for understanding the technology. It can serve as an instrumental reference for the general LTE community. --Dr. Eko Onggosanusi Senior member of technical staff and 3GPP RAN1 lead delegate Texas Instruments

Fundamentals of LTE is a clear yet detailed introduction to the 3GPP Long-Term Evolution. I would recommend it both to those wishing to get up to speed on the fundamentals of LTE and those who are already involved but in need of a reference for this critical technology. --Dr. Alan Gatherer CTO of Baseband System-on-Chip Huawei Excellent ... A comprehensive and in-depth treatment of what is likely to become the dominant world broadband wireless standard. --Dr. Reinaldo Valenzuela Director of Wireless Communications Research Bell Labs, Alcatel-Lucent Fundamentals of LTE is a well-written and self-contained book featuring a unique blend of leading industry and academic perspectives. Comprehensive and highly accessible. --Dr. Angel Lozano Professor, Information & Communication Technologies University of Pompeu, Fabra This book offers a good entry point to the world of LTE for newcomers, since it contains useful background material for understanding the technology. It can serve as an instrumental reference for the general LTE community. --Dr. Eko Onggosanusi Senior member of technical staff and 3GPP RAN1 lead delegate Texas Instruments

Fundamentals of LTE is a clear yet detailed introduction to the 3GPP Long-Term Evolution. I would recommend it both to those wishing to get up to speed on the fundamentals of LTE and those who are already involved but in need of a reference for this critical technology. -Dr. Alan Gatherer CTO of Baseband System-on-Chip Huawei Excellent . . . . A comprehensive and in-depth treatment of what is likely to become the dominant world broadband wireless standard. -Dr. Reinaldo Valenzuela Director of Wireless Communications Research Bell Labs, Alcatel-Lucent Fundamentals of LTE is a well-written and self-contained book featuring a unique blend of leading industry and academic perspectives. Comprehensive and highly accessible. -Dr. Angel Lozano Professor, Information & Communication Technologies University of Pompeu, Fabra This book offers a good entry point to the world of LTE for newcomers, since it contains useful background material for understanding the technology. It can serve as an instrumental reference for the general LTE community. -Dr. Eko Onggosanusi Senior member of technical staff and 3GPP RAN1 lead delegate Texas Instruments

Author Information

Arunabha Ghosh is a lead member of technical staff in the Wireless Communications Group in AT&T Laboratories. He received his B.S. with highest distinction from the Indian Institute of Technology at Kanpur in 1992 and his Ph.D. from the University of Illinois at Urbana Champaign in 1998. As a technical member at AT&T Labs, Dr. Ghosh’s primary area of research is mobile wireless systems, with particular emphasis on MIMO-OFDM systems. Dr. Ghosh has worked extensively in the area of closed-loop single-user and multiuser MIMO solutions for technologies such as LTE and WiMAX and has been an active participant in many standards bodies such as 3GPP, IEEE, and WiMAX Forum.   Jun Zhang is a visiting assistant professor in the Department of Electronic and Computer Engineering at the Hong Kong University of Science and Technology. He received his B.Eng. in electronic engineering from the University of Science and Technology of China (USTC) in 2004, his M.Phil. in information engineering from the Chinese University of Hong Kong (CUHK) in 2006, and his Ph.D. in electrical and computer engineering from the University of Texas at Austin in 2009. He was an intern at AT&T Labs in the summers of 2007 and 2008.   Jeffrey G. Andrews is an associate professor in the Department of Electrical and Computer Engineering at the University of Texas at Austin, where he is the director of the Wireless Networking and Communications Group. He received his B.S. in engineering with high distinction from Harvey Mudd College, and his M.S. and Ph.D. in electrical engineering from Stanford University. Dr. Andrews has industry experience at companies including Qualcomm, Intel, and Microsoft, and is the co-recipient of three IEEE best paper awards and the National Science Foundation CAREER Award.   Rias Muhamed is a director of business development with the AT&T Corporate Strategy and Development Team. His area of focus is on developing and incubating new business applications and services for AT&T using emerging technologies. He was previously with AT&T Labs, where he led technology assessment of a variety of wireless communication systems. He received his B.S. in electrical engineering from Pondicherry University, India in 1990; his M.S. in electrical engineering from Virginia Tech in 1996; and his M.B.A. from St. Edward University in Austin in 2000.

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