Book contents
- Frontmatter
- Contents
- Preface
- Acknowledgements
- List of notation
- 1 Introduction
- 2 The wireless channel
- 3 Point-to-point communication: detection, diversity and channel uncertainity
- 4 Cellular systems: multiple access and interference management
- 5 Capacity of wireless channels
- 6 Multiuser capacity and opportunistic communication
- 7 MIMO I: spatial multiplexing and channel modeling
- 8 MIMO II: capacity and multiplexing architectures
- 9 MIMO III: diversity–multiplexing tradeoff and universal space-time codes
- 10 MIMO IV: multiuser communication
- Appendix A Detection and estimation in additive Gaussian noise
- Appendix B Information theory from first principles
- References
- Index
1 - Introduction
Published online by Cambridge University Press: 05 June 2012
- Frontmatter
- Contents
- Preface
- Acknowledgements
- List of notation
- 1 Introduction
- 2 The wireless channel
- 3 Point-to-point communication: detection, diversity and channel uncertainity
- 4 Cellular systems: multiple access and interference management
- 5 Capacity of wireless channels
- 6 Multiuser capacity and opportunistic communication
- 7 MIMO I: spatial multiplexing and channel modeling
- 8 MIMO II: capacity and multiplexing architectures
- 9 MIMO III: diversity–multiplexing tradeoff and universal space-time codes
- 10 MIMO IV: multiuser communication
- Appendix A Detection and estimation in additive Gaussian noise
- Appendix B Information theory from first principles
- References
- Index
Summary
Book objective
Wireless communication is one of the most vibrant areas in the communication field today. While it has been a topic of study since the 1960s, the past decade has seen a surge of research activities in the area. This is due to a confluence of several factors. First, there has been an explosive increase in demand for tetherless connectivity, driven so far mainly by cellular telephony but expected to be soon eclipsed by wireless data applications. Second, the dramatic progress in VLSI technology has enabled small-area and low-power implementation of sophisticated signal processing algorithms and coding techniques. Third, the success of second-generation (2G) digital wireless standards, in particular, the IS-95 Code Division Multiple Access (CDMA) standard, provides a concrete demonstration that good ideas from communication theory can have a significant impact in practice. The research thrust in the past decade has led to a much richer set of perspectives and tools on how to communicate over wireless channels, and the picture is still very much evolving.
There are two fundamental aspects of wireless communication that make the problem challenging and interesting. These aspects are by and large not as significant in wireline communication. First is the phenomenon of fading: the time variation of the channel strengths due to the small-scale effect of multipath fading, as well as larger-scale effects such as path loss via distance attenuation and shadowing by obstacles.
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- Chapter
- Information
- Fundamentals of Wireless Communication , pp. 1 - 9Publisher: Cambridge University PressPrint publication year: 2005
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