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Orthogonal Waveforms and Filter Banks for Future Communication Systems

Langue : Anglais

Coordonnateurs : Renfors Markku, Mestre Xavier, Kofidis Eleftherios, Bader Faouzi

Couverture de l’ouvrage Orthogonal Waveforms and Filter Banks for Future Communication Systems

Orthogonal Waveforms and Filter Banks for Future Communication Systems provides an up-to-date account of orthogonal filter bank-based multicarrier (FBMC) systems and their applications in modern and future communications, highlighting the crucial role that advanced multicarrier waveforms play. It is an up-to-date overview of the theory, algorithms, design and applications of FBMC systems at both the link- and system levels that demonstrates the various gains offered by FBMC over existing transmission schemes via both simulation and test bed experiments. Readers will learn the requirements and challenges of advanced waveform design for future communication systems, existing FBMC approaches, application areas, and their implementation.

In addition, the state-of-the-art in PHY- and MAC-layer solutions based on FBMC techniques, including theoretical, algorithmic and implementation aspects are explored.

1. New Waveforms for New Services in 5G2. TVWS as an Emerging Application of Cognitive Radio 3. Broadband PMR/PPDR Evolution4. Optical Communications 5. Multirate Signal Processing and Filter Banks6. Filter Banks for Software Defined Radio 7. Orthogonal Communication Waveforms 8. FBMC Design and Implementation 9. FBMC Over Frequency Selective Channels 10. FBMC Synchronization Techniques 11. FBMC Channel Estimation Techniques 12. FBMC Channel Equalization Techniques 13. FBMC/OQAM MIMO Transceiver14. MIMO-FBMC Receivers 15. Space-Time Coding for FBMC/OQAM16. FBMC Distributed and Cooperative Systems 17. Multi-User PHY-MAC Interaction for FBM18. High Power Amplifier Effects and Peak to Average Power Ratio Mitigation 19. FBMC Implementation of a TVWS System20. Real-time implementation and experimental validation of a DL FBMC system

Academic researchers in mobile and wireless communications, industry researchers and practitioners in communications engineering. Graduate students in mobile and wireless communications.

Markku Renfors received M.Sc. and Dr. Tech. degrees from Tampere University of Technology (TUT), Tampere, Finland, in 1978 and 1982, respectively. After research and teaching positions at TUT, he was a Design Manager with Nokia Research Center and Nokia Consumer Electronics from 1988 to 1991. Since 1992, he has been a Professor with the Department of Electronics and Communications Engineering, TUT, where he was Department Head from 1992 to 2010. Dr. Renfors is a Fellow of IEEE and recipient of the 1987 IEEE Circuits and Systems Society’s Guillemin-Cauer Award (together with Tapio Saramäki). He has authored 80 papers in refereed journals, about 330 papers in conferences with review practice, and two patents. Dr. Renfors was an Associate Editor of IEEE Signal Processing Letters in 2006-2010. Currently he is a Senior Area Editor of IEEE Transactions on Signal Processing and a member of the Editorial Board of EURASIP Signal Processing journal. He has served in the conference organization committees of ISCAS 1988, EUSIPCO 2000, ICC 2001, PIMRC 2006, SPAWC 2007, and SiPS 2009. He has supervised 18 doctoral dissertations. His research interests include multirate filtering and filter banks, especially with applications in advanced multicarrier and single-carrier waveforms, software defined radio, and algorithms for flexible communications receivers and transmitters. He has actively participated in the EU FP7 projects PHYDYAS and EMPhAtiC developing FBMC techniques especially for cognitive radio and heterogeneous fragmented spectrum use scenarios.
Xavier Mestre received the MSc and PhD in Electrical Engineering from the Technical University of Catalonia (UPC) in 1997 and 2002, respectively, and the Licentiate Degree in Mathematics in 2011. During the pursuit of his PhD, he was recipient of a 1998-2001 PhD scholarship (granted by the Catalan Government) and was awarded the 2002 Rosina Ribalta second prize for the best doctoral thesis project within areas of Information Te
  • Presents a unique and up-to-date source for signal processing/communications researchers and practitioners
  • Presents a homogeneous, comprehensive presentation of the subject
  • Covers offset-QAM based FBMC (FBMC/OQAM) and its variants, including its history, signal processing interest and potential for maximum spectral efficiency, among other features

Date de parution :

Ouvrage de 590 p.

19x23.3 cm

Disponible chez l'éditeur (délai d'approvisionnement : 14 jours).

127,94 €

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