Hardback : HK$887.00
This book introduces the sources and historic collection campaigns of resource allocation in wireless communication systems. The unique characteristics of MIMO-OFDMA systems are thoroughly studied and summarized. Remarks on resource allocation and spectrum sharing are also presented, which demonstrate the great value of resource allocation techniques, but also introduce distinct challenges of resource allocation in MIMO-OFDMA systems. Novel resource allocation techniques for OFDMA Systems are surveyed from various applications (e.g., for unicast, or multicast with Guaranteed BER and Rate, subcarrier and power allocation with various detectors, low-complexity energyefficient resource allocation, etc.) in this book.
Due to the high mobility and low latency requirements of 5G wireless communications, this book discusses how to deal with the imperfect CSI. It also discusses how to deal with e.g., throughput maximization, outage probabilities maximization and guarantee, energy efficiency, physical-layer security issues with feedback channel capacity constraints, in order to characterize and understand the applications of practical scenes.
This book will target professionals & researchers working in the fields of Wireless Communications and Networking, Resource Allocation and Transmissions. Advanced-level students in electrical engineering and computer science will also find this book useful as a secondary textbook.
This book introduces the sources and historic collection campaigns of resource allocation in wireless communication systems. The unique characteristics of MIMO-OFDMA systems are thoroughly studied and summarized. Remarks on resource allocation and spectrum sharing are also presented, which demonstrate the great value of resource allocation techniques, but also introduce distinct challenges of resource allocation in MIMO-OFDMA systems. Novel resource allocation techniques for OFDMA Systems are surveyed from various applications (e.g., for unicast, or multicast with Guaranteed BER and Rate, subcarrier and power allocation with various detectors, low-complexity energyefficient resource allocation, etc.) in this book.
Due to the high mobility and low latency requirements of 5G wireless communications, this book discusses how to deal with the imperfect CSI. It also discusses how to deal with e.g., throughput maximization, outage probabilities maximization and guarantee, energy efficiency, physical-layer security issues with feedback channel capacity constraints, in order to characterize and understand the applications of practical scenes.
This book will target professionals & researchers working in the fields of Wireless Communications and Networking, Resource Allocation and Transmissions. Advanced-level students in electrical engineering and computer science will also find this book useful as a secondary textbook.
1. Introduction.- 2. Overview of OFDMA and MIMO Systems.- 3. Remarks on Resource Allocation.- 4. Resource Allocation for OFDMA Systems.- 5. Dealing with Imperfect CSI.- 6. Summary and Outlook.
Chen Chen received the Ph.D. degree from Peking
University, China, in 2009. He is currently an Associate Professor
with Peking University. Since 2010, he has been the principal
investigator of over ten funded research projects. He has authored
or co-authored over 100 journal and conference papers, and 3 books.
His current research interests include signal processing, wireless
communications and networking. He was a recipient of two
Outstanding Paper Awards from the Chinese Government of Beijing in
2013 and 2018, respectively, and the Best Paper Awards of IEEE
ICNC’17, ICCS’18, and Globecom’18. He has served as the symposium
Co-Chair, Session Chair, and a member of the Technical Program
Committee for several international conferences. He is currently an
Associate Editor of the IET Communications.
Xiang Cheng received the Ph.D. degree from Heriot-Watt
University, Edinburgh, U.K., and the University of Edinburgh,
Edinburgh, in 2009. Heis currently a Professor with Peking
University, Beijing, China. He has authored or co-authored over 200
journal and conference papers, 5 books, and 7 patents. His
publications have received nearly 5652 Google Scholar citations
with an h-index of 36, and i10-index of 95. His current research
interests include channel modeling and mobile communications. He
was a recipient of the IEEE Asia-Pacific Outstanding Young
Researcher Award in 2015 and the Postgraduate Research Thesis Prize
from the University of Edinburgh and a co-recipient of the 2016
IEEE JSAC Best Paper Award: Leonard G. Abraham Prize, the NSFC
Outstanding Young Investigator Award, the First-Rank and
Second-Rank Awards in Natural Science, Ministry of Education in
China, and the Best Paper Award of IEEE ITST’12, ICCC’13, ITSC’14,
ICC’16, ICNC’17, ICCS’18, and Globecom’18. He has served as the
symposium Leading-Chair, the Co-Chair, and a member of the
Technical Program Committee for several international conferences.
He is currently an Associate Editor of the IEEE Transactions on
Intelligent Transportation Systems, and the Journal of
Communications and Information Networks. He is an IEEE
Distinguished Lecturer.
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