An introduction to theories and applications in wireless broadband
networks

As wireless broadband networks evolve into future generation
wireless networks, it's important for students, researchers, and
professionals to have a solid understanding of their underlying
theories and practical applications. Divided into two parts, the
book presents:

* Enabling Technologies for Wireless Broadband
Networks--orthogonal frequency-division multiplexing and other
block-based transmissions; multi-input/multi-output antenna
systems; ultra-wideband; medium access control; mobility resource
management; routing protocols for multi-hop wireless broadband
networks; radio resource management for wireless broadband
networks; and quality of service for multimedia services

* Systems for Wireless Broadband Networks--long-term
evolution cellular networks; wireless broadband networking with
WiMax; wireless local area networks; wireless personal area
networks; and convergence of networks

Each chapter begins with an introduction and ends with a
summary, appendix, and a list of resources for readers who would
like to explore the subjects in greater depth. The book is an ideal
resource for researchers in electrical engineering and computer
science and an excellent textbook for electrical engineering and
computer science courses at the advanced undergraduate and graduate
levels.

DAVID TUNG CHONG WONG, PHD, is a Research Scientist at the Institute for Infocomm Research, Singapore, and he is the Networks Editor for World Scientific's International Journal on Wireless & Optical Communications. His research interests include wireless/wireline multimedia networks. PENG-YONG KONG, PHD, is a Senior Research Fellow at the Institute for Infocomm Research and an Adjunct Assistant Professor at the National University of Singapore. YING-CHANG LIANG, PHD, is a Senior Scientist at the Institute for Infocomm Research and holds an adjunct associate professorship at Nanyang Technological University and National University of Singapore. KEE CHAING CHUA is Professor of Electrical & Computer Engineering at the National University of Singapore. He has published more than 200 journal articles or conference papers and coauthored one other book, all on wireless or optical networks. JON W. MARK, PHD, FCAE, FIEEE, PEng, is a Distinguished Professor Emeritus and Director of the Centre for Wireless Communications at the University of Waterloo, Canada. He has published more than 350 journal or conference papers, coauthored two other books, coedited one book, and published more than twenty book chapters.

Klappentext

AN INTRODUCTION TO THEORIES AND APPLICATIONS IN WIRELESS BROADBAND NETWORKS

As wireless broadband networks evolve into future generation wireless networks, it's important for students, researchers, and professionals to have a solid understanding of their underlying theories and practical applications. Divided into two parts, the book presents:

• Enabling Technologies for Wireless Broadband Networks—orthogonal frequency-division multiplexing and other block-based transmissions; multi-input/multi-output antenna systems; ultra-wideband; medium access control; mobility resource management; routing protocols for multi-hop wireless broadband networks; radio resource management for wireless broadband networks; and quality of service for multimedia services
• Systems for Wireless Broadband Networks—long-term evolution cellular networks; wireless broadband networking with WiMax; wireless local area networks; wireless personal area networks; and convergence of networks

Each chapter begins with an introduction and ends with a summary, appendix, and a list of resources for readers who would like to explore the subjects in greater depth. The book is an ideal resource for researchers in electrical engineering and computer science and an excellent textbook for electrical engineering and computer science courses at the advanced undergraduate and graduate levels.

Zusammenfassung
An introduction to theories and applications in wireless broadband networks

As wireless broadband networks evolve into future generation wireless networks, it's important for students, researchers, and professionals to have a solid understanding of their underlying theories and practical applications. Divided into two parts, the book presents:

• Enabling Technologies for Wireless Broadband Networksorthogonal frequency-division multiplexing and other block-based transmissions; multi-input/multi-output antenna systems; ultra-wideband; medium access control; mobility resource management; routing protocols for multi-hop wireless broadband networks; radio resource management for wireless broadband networks; and quality of service for multimedia services

• Systems for Wireless Broadband Networkslong-term evolution cellular networks; wireless broadband networking with WiMax; wireless local area networks; wireless personal area networks; and convergence of networks

Each chapter begins with an introduction and ends with a summary, appendix, and a list of resources for readers who would like to explore the subjects in greater depth. The book is an ideal resource for researchers in electrical engineering and computer science and an excellent textbook for electrical engineering and computer science courses at the advanced undergraduate and graduate levels.

Preface xiii

I Enabling Technologies for Wireless Broadband Networks 1

1 Orthogonal Frequency-Division Multiplexing and Other Block-Based Transmissions 3

1.1 Introduction 3

1.2 Wireless Communication Systems 3

1.3 Block-Based Transmissions 5

1.4 Orthogonal Frequency-Division Multiplexing Systems 9

1.5 Single-Carrier Cyclic Prefix Systems 11

1.6 Orthogonal Frequency-Division Multiple Access 12

1.7 Interleaved Frequency-Division Multiple Access 13

1.8 Single-Carrier Frequency-Division Multiple Access 16

1.9 CP-Based Code Division Multiple Access 17

1.10 Receiver Design 18

Summary 25

Appendix 26

References 27

2 Multiple-Input, Multiple-Output Antenna Systems 31

2.1 Introduction 31

2.2 MIMO System Model 32

2.3 Channel Capacity 33

2.4 Diversity 42

2.5 Diversity and Spatial Multiplexing Gain 43

2.6 SIMO Systems 44

2.7 MISO Systems 45

2.8 SpaceTime Coding 45

2.9 MIMO Transceiver Design 50

2.10 SVD-Based Eigen-Beamforming 52

2.11 MIMO for Frequency-Selective Fading Channels 52

2.12 Transmitting Diversity for Frequency-Selective Fading Channels 56

2.13 Cyclic Delay Diversity 59

Summary 62

References 62

3 Ultrawideband 65

3.1 Introduction 65

3.2 Time-Hopping Ultrawideband 67

3.3 Direct Sequence Ultrawideband 84

3.4 Multiband 94

3.5 Other Types of UWB 97

Summary 107

References 110

4 Medium Access Control 115

4.1 Introduction 115

4.2 Slotted ALOHA MAC 117

4.3 Carrier-Sense Multiple Access with Collision Avoidance MAC 119

4.4 Polling MAC 126

4.5 Reservation MAC 127

4.6 Energy-Efficient MAC 132

4.7 Multichannel MAC 139

4.8 Directional-Antenna MAC 141

4.9 Multihop Saturated Throughput of IEEE 802.11 MAC 147

4.10 Multiple-Access Control 156

Summary 161

References 161

5 Mobility Resource Management 165

5.1 Introduction 165

5.2 Types of Handoffs 167

5.3 Handoff Strategies 169

5.4 Ch…