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Delay-Doppler Communications. Principles and Applications

  • Book

  • March 2022
  • Elsevier Science and Technology
  • ID: 5410247

Orthogonal Frequency Division Multiplexing (OFDM) has been the waveform of choice for most wireless communications systems in the past 25 years. This book addresses the "what comes next?� question by presenting the recently proposed waveform known as Orthogonal Time-Frequency-Space (OTFS), which offers a better alternative for high-mobility environments.

The OTFS waveform is based on the idea that the mobile wireless channels can be effectively modelled in the delay-Doppler domain. This domain provides a sparse representation closely resembling the physical geometry of the wireless channel. The key physical parameters such as relative velocity and distance of the reflectors with respect to the receiver can be considered roughly invariant in the duration of a frame up to a few milliseconds. This enables the information symbols encoded in the delay-Doppler domain to experience a flat fading channel even when they are affected by multiple Doppler shifts present in high-mobility environments.

Delay-Doppler Communications: Principles and Applications covers the fundamental concepts and the underlying principles of delay-Doppler communications. Readers familiar with OFDM will be able to quickly understand the key differences in delay-Doppler domain waveforms that can overcome some of the challenges of high-mobility communications. For the broader readership with a basic knowledge of wireless communications principles, the book provides sufficient background to be self-contained. The book provides a general overview of future research directions and discusses a range of applications of delay-Doppler domain signal processing.

Please Note: This is an On Demand product, delivery may take up to 11 working days after payment has been received.

Table of Contents

1. Introduction
2. High-mobility wireless channels
3. OFDM review and its limitations
4. Delay-Doppler modulation
5. Zak transform analysis for delay-Doppler communications
6. Detection methods
7. Channel estimation methods
8. MIMO and multiuser OTFS
9.

Authors

Yi Hong Associate Professor, Department of Electrical and Computer Systems Engineering, Monash University, Melbourne, VIC, Australia. Dr. Yi Hong is an Associate Professor at the Department of Electrical and Computer Systems Engineering, Monash University, Australia. She obtained her PhD in Electrical Engineering and Telecommunications from the University of New South Wales (UNSW), Sydney, and received the NICTA-ACoRN Earlier Career Researcher Award at the 2007 Australian Communication Theory Workshop, Adelaide. Yi Hong served as a member of the Australian Research Council College of Experts in 2018-2020. She was an Associate Editor for 'IEEE Wireless Communication Letters' and 'Transactions on Emerging Telecommunications Technologies (ETT)'. She was the Tutorial Chair of the 2021 IEEE International Symposium on Information Theory, held in Melbourne, and the General Co-Chair of the 2021 IEEE International Conference on Communications Workshop on Orthogonal Time Frequency Space Modulation (OTFS) for 6G and Future High-mobility Communications, held in Montreal. She was the General Co-Chair of the 2014 IEEE Information Theory Workshop, held in Hobart; the Technical Program Committee Chair of the 2011 Australian Communications Theory Workshop, held in Melbourne; the Publicity Chair at the 2009 IEEE Information Theory Workshop, held in Sicily. Her research interests include communication theory, coding, and information theory with applications to telecommunication engineering. Tharaj Thaj PhD Student, Department of Electrical and Computer Systems Engineering, Monash University, Melbourne, VIC, Australia. Mr.?Tharaj?Thaj?obtained his?B.Tech. degree in Electronics and Communication Engineering at the National Institute of Technology, Calicut, India, in 2012 and?his?M.Tech. degree in Telecommunication Systems Engineering at the Indian Institute of Technology, Kharagpur, India, in 2015. He is currently pursuing a PhD with the Department of Electrical and Computer Systems Engineering, Monash University, Australia. From 2012 to 2013, he worked?at Verizon Data Services India as a Software Engineer, focusing on network layer routing algorithms and protocols. From 2015?to?2017, he worked as a Senior Engineer in the Communication, Navigation, and Surveillance (CNS) Department of Honeywell Technology Solutions Lab in Bengaluru. His current research interests include physical layer design and implementation of wireless communication systems for next-generation wireless networks. Emanuele Viterbo Professor and Head of Department, Department of Electrical and Computer Systems Engineering, Monash University, Melbourne, VIC, Australia. Dr. Emanuele Viterbo is a Professor in the Department of Electrical and Computer Systems Engineering at Monash University, Australia. He served as Head of Department and Associate Dean Graduate Research in the Faculty of Engineering at Monash University. Prof. Viterbo obtained his degree and a PhD in Electrical Engineering, both from the?Politecnico?di Torino, Turin, Italy. From 1990 to 1992, he worked?at?the European Patent Office, The Hague, The Netherlands, as a patent examiner in the field of dynamic recording and error-control coding. Between 1995 and 1997, he held a post-doctoral position at?Politecnico?di Torino. In 1997-1998, he was a post-doctoral research fellow in the Information Sciences Research Center of AT&T Research, Florham Park, NJ, USA. He later joined?Dipartimento?di Elettronica at?Politecnico?di Torino. From 2006 to August?2010, he was a Full Professor in DEIS at the University of Calabria, Italy. In September 2010, he joined the ECSE Department at Monash University as a?Professor, where he is continuing his research. Prof. Viterbo is a Fellow of the IEEE, an ISI Highly Cited Researcher,?and?a?Member of the Board of Governors of the IEEE Information Theory Society (2011-2013?and 2014-2016). He served as an Associate Editor of 'IEEE Transactions on Information Theory',?'European Transactions on Telecommunications',?and?the?'Journal of Communications and Networks'. His main research interests are in lattice codes for Gaussian and fading channels, algebraic coding theory, algebraic space-time coding, digital terrestrial television broadcasting, and digital magnetic recording.