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Integrated Sensing and Communications for Future Wireless Networks. Principles, Advances and Key Enabling Technologies

  • Book

  • December 2024
  • Elsevier Science and Technology
  • ID: 5978233

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.

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Table of Contents

1. Introduction to Integrated Sensing and Communications for the Next Generation of Wireless Connectivity
Soumya Prakash Dash, Aryan Kaushik and Ana Garcia Armada
Intelligent Metasurfaces for ISAC
2. Holographic Integrated Sensing and Communications
Hongliang Zhang, Haobo Zhang, Boya Di and Lingyang Song
3. Reconfigurable Intelligent Surface Empowered Integrated Sensing and Communications: Principle, Modeling, and Optimization
Ming Li, Rang Liu, Honghao Luo and Qian Liu
Machine Learning and AI
4. Channel Estimation in ISAC-IRS Systems Using Machine Learning Approaches
Yu Liu, Ibrahim Al-Nahhal, Octavia A. Dobre and Fanggang Wang
5. Integrated ISAC and Federated Learning in Wireless Edge Networks
Nan Qi, Ming Xiao and Carlo Fischione
ISAC Waveform Design and Full-Duplex
6. Communication-Centric Multi-Metric ISAC Waveform Optimization
J. Andrew Zhang and Zhitong Ni
7. Waveform Design with Constant Peak-to-Average Power Ratio
Rajitha Senanayake, Tian Han, Shalanika Dayarathna, Peter Smith, Jamie Evans, William Moran and Rob Evans
8. Detection of Integrated Sensing and Communications Waveforms
John Thompson, Fraser Coutts, kaiyu zhang and Cheng Cheng
9. Full Duplex Massive MIMO for Integrated Sensing and Communications
George Alexandropoulos and Ioannis Gavras
10. Linear Transmit Waveform and Receiver design for Joint Radar-Communication Systems
Christos Tsinos
Millimeter Wave, Terahertz and Beamforming for ISAC
11. Beamforming Architectures for Integrated Sensing and Communications in Millimeter-wave and Terahertz
Ahmet Elbir and Symeon Chatzinotas
12. Flexible Hybrid Precoding for Integrated Sensing and Communications
Evangelos Vlachos, Aryan Kaushik and George Alexandropoulos
Network architectural aspects of integrating sensing into cellular systems
13. RAN architecture and implementation requirements for ISAC
Rath Vannithamby, Fatemeh Hamidi-Sepehr, Thushara Hewavithana and Arvind Merwaday
Multiple Access and Interference Management
14. Multiple Access for Integrated Sensing and Communications
Kexin Chen, Yijie Mao, Wonjae Shin and Bruno Clerckx
15. Self-interference Suppression Techniques in Integrated Sensing and Communication Systems
Muhammad Ali Jamshed, Aryan Kaushik, Masood Ur-Rehman and Muhammad Ali Imran
Conclusion and Future Prospects
16. ISAC Standardization and Synergies with Key Technology Enablers: Overview and Future Prospects
Rohit Singh, Aryan Kaushik, Miguel Dajer and Marco Di Renzo

Authors

Aryan Kaushik Associate Professor, the Manchester Metropolitan University, UK.

Prof. Aryan Kaushik is an Associate Professor at the Manchester Metropolitan University, UK, associated with the Department of Computing and Mathematics.