Cognitive Radio and its Application for Next Generation Cellular and Wireless Networks

This volume explores cognitive radio (CR) -- a prominent area in wireless communication that has emerged over the last ten years. The text discusses the enormous cognitive radio applications in next generation wireless networks, in addition to related technologies.

This book provides a broad introduction to Cognitive Radio, which attempts to mimic human cognition and reasoning applied to Software Defined Radio and reconfigurable radio over wireless networks. It provides readers with significant technical and practical insights into different aspects of Cognitive Radio, starting from a basic background, the principle behind the technology, the inter-related technologies and application to cellular and vehicular networks, the technical challenges, implementation and future trends. The discussion balances theoretical concepts and practical implementation. Wherever feasible, the different concepts explained are linked to application of the corresponding scheme in a particular wireless standard. This book has two sections: the first section begins with an introduction to cognitive radio and discusses in detail various, inter-dependent technologies such as network coding, software-based radio, dirty RF, etc. and their relation to cognitive radio. The second section deals with two key applications of cognitive radio next generation cellular networks and vehicular networks. The focus is on the impact and the benefit of having cognitive radio-based mechanisms for radio resource allocation, multihop data transmission, co-operative communication, cross-layer solutions and FPGA-level framework design, as well as the effect of relays as cognitive gateways and real-time, seamless multimedia transmission using cognitive radio.

First book to focus solely on cognitive radio and its impact on wireless cellular and vehicular networks Provides significant technical and practical insights in the background, the principles, the inter-related technologies and applications, the technical challenges, implementation and future trends Each different concept explained is linked with the application of the corresponding scheme in a particular wireless standard Includes supplementary material: sn.pub/extras

Auteur

Dr. Hrishikesh Venkataraman is a senior researcher and Enterprise Ireland (EI) Principal Investigator with Performance Engineering Laboratory at the Irish national research center The RINCE Institute, in Dublin City University (DCU), Ireland. He obtained his Ph.D. from Jacobs University Bremen, Germany, in 2007 for his research on wireless cellular networks. He obtained his master's degree from Indian Institute of Technology (IIT) Kanpur, India, in 2004 and did his master's thesis from Vodafone Chair for Mobile Communications, Technical University Dresden, Germany, from 2003 to 2004 under the Indo-German DAAD Fellowship. His research interests include mobile multimedia, wireless communications and energy in wireless. Dr. Venkataraman has published more than 40 papers in journals, international conferences and book chapters and has won a best paper award in World Congress on Engineering and Computer Science in University of Berkeley, USA, in October 2009. Currently, Dr. Venkataraman is an Executive Editor of European Transactions on Telecommunications (ETT) and is a founding member of UKRI chapter of IEEE Vehicular Technology Society.

Dr. Muntean has established a strong track record in the area of performance-aware data communications in heterogeneous network environments. Dr. Muntean is Director of the Network Innovations Centre of the RINCE Research Institute, co-Director of the Dublin
City University (DCU) Performance Engineering Laboratory, a top Irish research laboratory which has a state-of-the-art facility in the DCU Engineering building, and Lecturer with the School of Electronic Engineering at DCU, Ireland. Dr. Muntean has successfully supervised five Ph.D. and four master's research students and is currently leading a team of 15 postgraduate and postdoctoral researchers. Dr. Muntean has been principal investigator or collaborator on many Enterprise Ireland, Science Foundation Ireland and Irish Research Council forScience Engineering and Technology-funded projects. In addition, he has been leading or collaborating on projects funded or co-funded by multi-national and Irish companies such as IBM, Disney Research, Samsung, Microsoft, Everseen and Citadel 100. Dr. Muntean has authored one book and edited three others, has published eight book chapters, and has published over 30 journal and 150 conference papers in top international venues. Dr. Muntean has been awarded the 2010 Scott Helt Memorial Award for the Best Paper Published in the IEEE Transactions on Broadcasting and five best paper awards at different conferences. He is a member of the IEEE, IEEE Broadcast Technology Society and IEEE Vehicular Technology Society and serves as Associate Editor for the IEEE Transactions on Broadcasting.

Contenu
Part I: Cognitive Radio and Radio Spectrum.- Introduction to Cognitive Radio.- Spectrum Usage Models for the Analysis, Design and Simulation of Cognitive Radio Networks.- Bandwidth Efficient Co-operative Spectrum Sensing.- Emergency Networking in Licensed Spectrum using Cognitive Radios: Challenges and Insights.- Signature Detection for Context Awareness in Cognitive Radio Networks.- Generalized Eigen-value Based Spectrum Sensing.- Part II: Cognitive Radio for Wireless and Cellular Networks.- From Self Organizing to Cognitive Networks: How Can the Cellular Operator Make Use of the Cognitive Paradigm?.- Signal Separation for Cognitive Wireless Communications.- Towards Cognitive Networking: Automatic Wireless Network Recognition Based on MAC Feature Detection.- Spectrum Allocation in Cognitive Radio Networks using Evolutionary Algorithms.- Radio Resource Allocation for Cognitive Radio-based Ad Hoc Wireless Networks.- Next Generation Cognitive Cellular Networks, LTE, WiMAX and Wireless Broadband Access.- Cognitive Capabilities for Femtocell Networks: Cognitive Femtocells.- Interference Modeling, Shaping and Avoidance in Cognitive Wireless Networks.- System Design and FPGA Implementation for a Cognitive Radio Wireless Device.