Integrated Sensing and Communications for Future Wireless Networks: Principles, Advances and Key Enabling Technologies presents the principles, methods, and algorithms of ISAC, an overview of the essential enabling technologies, as well as the latest research and future directions. Suitable for academic researchers and post graduate students as well as industry R&D engineers, this book is the definitive reference in this interdisciplinary field that is being seen as a technology to enable emerging applications such as vehicular networks, environmental monitoring, remote sensing, IoT, smart cities. Importantly, ISAC has been identified as an enabling technology for B5G/6G, and the next-generation Wi-Fi system. ISAC brings together a range of technologies: radar sensing, reconfigurable intelligent surfaces, holographic surfaces through to high frequency terahertz, PHY security, channel signaling, multiple access, and machine learning.
Author Biography:
Dr. Aryan Kaushik is Assistant Professor at the University of Sussex, UK, associated with the School of Engineering and Informatics, Sussex Artificial Intelligence Institute, and ACMI research centre, since 2021. Prior to that, he has been a Research Fellow at the University College London, UK, with the Department of Electronic and Electrical Engineering, from 2020-21. He completed his PhD degree in Communications Engineering at the Institute for Digital Communications, School of Engineering, The University of Edinburgh, UK, in 2019. He received his MSc degree in Telecommunications from the Hong Kong University of Science and Technology, Hong Kong, in 2015. He has held visiting professor/researcher appointments at the Shenzhen Institute of Beihang University, China, from 2022, Athena Research and Innovation Center, Greece, in 2021, Imperial College London, UK, from 2019-20, University of Luxembourg, Luxembourg, in 2018, and Beihang University, China, from 2017-19. His research interests include signal processing for 5G/6G wireless communications, integrated sensing and communications, reconfigurable holographic and intelligent surfaces, energy efficient communication systems, millimeter wave massive MIMO and satellite communication networks. He has been involved as research lead in the UK MOD, DSTL, DASA and EPSRC funded projects on integrated sensing and communications including the UK-wide UDRC consortium, PI in the UKRI HEIF supported project on green and autonomous UAVs and Sussex-ROF funded project on integrated sensing and communications, and many other collaborative projects.
