This book examines vulnerability threats and attack detection and mitigation, including the associated legal requirements, regulatory frameworks, and policies for enabling the security and privacy of cyber-physical systems. It provides researchers, academics, and practitioners with new insights into the real-world scenarios of deploying, applying, and managing security and privacy frameworks in modern cyber-physical systems.
It addresses critical security and privacy concerns, including theoretical analysis, novel system architecture design and implementation, vulnerability discovery, analysis, mitigation, emerging application scenarios, experimental frameworks, and social and ethical dilemmas affecting all parties in cyber-physical systems. The book is an ideal reference for practitioners and researchers in cyber-physical systems, security and privacy, the Internet of Things, advanced cryptography, cyber defensive walls, industrial systems, and cyber threats. It is also a suitable textbook for graduate and senior undergraduate courses in these subjects.
1. An Overview of Security and Privacy in Cyber-physical Systems:
Emerging Trends and Strategies
2. Protection and Fault Diagnostics in Legacy
Cyber-physical Systems
3. Explainable Artificial Intelligence for Intrusion
Detection in Cyber-Physical Systems
4. Addressing Security and Privacy Issues
in Cyber-physical Systems
5. Physical Layer Security of 6G Vehicle Visible
Light Communications for Cyber-Physical Systems
6. Hardware Security and
Privacy for Cyber-physical Systems
7. A Secure Biometric Authentication
Architecture for Blockchain-driven Cyber-physical Systems
8. Secure IoT-Based
Smart Wheelchair System: From Implementation to Security Enhancement Strategy
9. Statistical Estimation of User Location Distribution via Anonymized Dummy
Data Transmission
10. Emerging Security and Privacy Schemes for
Cyber-physical Systems
11. Security and Privacy Concerns and Risks in Modern
Cyber-physical Systems
12. The Ethics of Security and Privacy of
Cyber-physical Systems: Emerging Trends, Technology and Applications
13.
Intrusion Detection Techniques for Cyber-physical Systems
14. Cyber-physical
Systems: Strategies for Enhancing Availability, Recovery, and Auditing for
Optimal Performance
15. Legal Framework and Regulatory Policies for
Cyber-physical Systems
16. Blockchain-based Security and Privacy Solutions
for Cyber-physical Systems
17. Privacy-utility Trade-offs in IoT Networks: A
Comparative Analysis of Differential Privacy Mechanisms for Sensor Data
Aggregation
18. Enhancing Cyber-physical Systems Through Artificial
Intelligence and Machine Learning
19. Case Studies on the Security and
Privacy of Cyber-physical Systems
20. Recent Advances and the Future of
Cyber-physical Systems
Agbotiname Lucky Imoize is a Lecturer in the Department of Electrical and Electronics Engineering at the University of Lagos, Nigeria. His research interests include 6G wireless communications, wireless security systems, holographic metasurfaces, and artificial intelligence. He is a Fulbright fellow, the vice chair of the IEEE Communication Society Nigeria chapter, and a registered engineer with the Council for the Regulation of Engineering in Nigeria. He is a senior member of IEEE.
Webert Montlouis is a Chief Scientist at Johns Hopkins University, where he shares his time between the Applied Physics Laboratory (APL) and the Electrical and Computer Engineering department. He received his Ph.D. degree in electrical engineering from Northeastern University, Boston, MA, USA. His research interests are Communications, Adaptive Signal Processing, Robust Tracking and Localization, Algorithm Development, System-On-Chip implementation of DSP algorithms, Networking, and Antenna Array Signal Processing. He is a Fellow of IEEE, AAIA, and AIIA.
Segun I. Popoola is a senior lecturer at the School of Computing and Information Science at Anglia Ruskin University, United Kingdom. He received a Ph.D. degree in cyber security and artificial intelligence from the Department of Engineering, Faculty of Science and Engineering, Manchester Metropolitan University, Manchester, U.K., in 2022. In June 2022, The Royal Society, United Kingdom endorsed him as a Global Exceptional Talent. His research interests include wireless communications, deep learning, federated learning, cyber security, the Internet of Things, and smart critical infrastructure.
Mohammad Hammoudeh received a B.Sc. degree in computer communications from Arts Sciences and Technology University in 2004, an M.Sc. degree in advanced distributed systems from the University of Leicester in 2006, and a Ph.D. degree in computer science from the University of Wolverhampton in 2008. He is the Saudi Aramco Chair Professor of Cyber Security with the King Fahd University of Petroleum and Minerals. His research interests include the applications of zero trust security to internet-connected critical national infrastructures, blockchains, and other complex and highly decentralized systems.
