Learn about the key technologies and understand the state of the art in research for full-duplex communication networks and systems with this comprehensive and interdisciplinary guide. Incorporating physical, MAC, network, and application layer perspectives, it explains the fundamental theories on which full-duplex communications are built, and lays out the techniques needed for network design, analysis and optimization. Techniques covered in detail include self-interference cancellation and signal processing algorithms, physical layer algorithms, methods for efficient resource allocation, and game theory. Potential applications and networking schemes are discussed, including full-duplex cognitive radio networks, cooperative networks, and heterogeneous networks. The first book to focus exclusively on full-duplex communications, this is an indispensable reference for both researchers and practitioners designing the next generation of wireless networks.
Lingyang Song is Professor of Wireless Communications and Signal Processing in the School of Electrical Engineering and Computer Science, Peking University, China, and an Institute of Electrical and Electronics Engineers Distinguished Lecturer. He is a co-author of Wireless Device-to-Device Communications and Networks (Cambridge, 2015). Risto Wichman is a Professor in the Department of Signal Processing and Acoustics at Aalto University, Finland. He was previously a Senior Research Engineer at the Nokia Research Center, Finland. Yonghui Li is an Associate Professor in the School of Electrical Engineering at the University of Sydney. He previously worked as a Project Manager at LinkAir Communications Inc., Santa Clara, USA. Zhu Han is a Professor in the Department of Electrical and Computer Engineering at the University of Houston. He has co-authored several books on wireless communications, including Game Theory in Wireless and Communication Networks (Cambridge, 2012) and Resource Allocation for Wireless Networks (Cambridge, 2008). He is a Fellow and Distinguished Lecturer of the IEEE Communications Society.
1. Basics of communication systems; 2. Signal processing and theoretical limits; 3. Full duplex system hardware implementation; 4. Full duplex MIMO communications; 5. Full duplex OFDMA communications; 6. Full duplex heterogeneous networks; 7. Full duplex cooperative networks; 8. Full duplex cognitive radio networks; 9. Full duplex random access networks.