Description: Delay Doppler Communications and Sensing: Principles, Advances and Applications of OTFS provides a comprehensive exploration of the principles and cutting-edge developments of delay Doppler (DD) communications and sensing with a specific focus on the advances and application of orthogonal time frequency space (OTFS). It highlights the fundamental theory for DD communications and sensing through the Zak transform, and discusses how this classic concept from quantum physics can reshape modern wireless technology. The important aspects of DD communications and sensing are introduced in detail, including transceiver design, performance analysis, and its application. In particular, this book reveals the intrinsic connections between DD domain wireless communication and sensing channels, unveiling the important interplay between communication and sensing functionalities in the DD domain. The book introduces the principles and design of communications and sensing based on the DD signal processing framework as well as delving into advanced aspects, such as DD domain MIMO and DD domain integrated sensing and communications (ISAC). By providing a comprehensive overview of both fundamental principles, cutting-edge research and practical applications, this book gives a deep understanding of the underlying concepts and techniques in Delay Doppler (DD) communications and sensing.
With this book the reader will:- Gain a comprehensive understanding of the Zak transform and DD domain wireless channels
- Understand the concept of DD communications, including the popular variants of OTFS
- Learn implementation details of DD communications and sensing
- Follow state-of-the-art developments in DD communications and sensing
- Grasp the insights and physical interpretations of DD communications and sensing
- Have access to programming codes for OTFS and DD communications and sensing
Brief description: Shuangyang Li received the B.S., M.S., and Ph.D. degrees from Xidian University, China, in 2013, 2016, and 2021, respectively. He received his second Ph.D. degree from the University of New South Wales (UNSW), Australia, in 2022. He is a recipient of the Marie Sklodowska-Curie Actions (MSCA) fellowship 2022 and is currently a research assistant at the Technical University of Berlin (TU-Berlin). Prior to that, he was a research associate at the University of Western Australia (UWA). He received the Best Paper Award from IEEE ICC 2023 and the Best Workshop Paper Award from IEEE WCNC 2023. He has been listed in the World's Top 2% Scientists by Stanford University for citation impact since 2023. Dr. Li is the recipient of the Best Young Researcher Award 2024 from the IEEE ComSoc EMEA region and is also a recipient of the European Research Council (ERC) Starting Grant 2025. He frequently serves as organizer/chair for workshops and tutorials on topics related to orthogonal time frequency space (OTFS) at IEEE flagship conferences and is a founding member and currently the co-chair of the special interest group (SIG) on OTFS. He is now an editor of IEEE Transactions on Communications. His research interests include signal processing, channel coding, applied information theory, and their applications to communication systems, with a specific focus on waveform designs.