This book examines the complex interplay between state-of-the-art telecommunications, smart city initiatives, and the Internet of Things (IoT), analyzing the security challenges and opportunities that emerge as the world ventures into this technological frontier of unparalleled connectivity and urbanization.
As the world rapidly advances towards unparalleled connectivity and urbanization, the intersection of state-of-the-art telecommunications, smart city initiatives, and the Internet of Things (IoT) holds the potential for revolutionary changes in our daily lives. This book examines the complex interplay among these dynamic forces, analyzing the security challenges and opportunities that emerge as we venture into this technological frontier.
Security Paradigms in 6G Smart Cities and IoT Ecosystems: Navigating the Future provides a comprehensive understanding of the security challenges and opportunities presented by integrating 6G networks, smart city initiatives, and IoT ecosystems. It equips readers with a look into emerging technological landscapes and offers practical insights, case studies, and best practices that can be directly applied to real-world scenarios, helping readers navigate challenges specific to their domains. The knowledge and strategies presented aim to implement robust security measures within 6G Smart Cities, IoT Ecosystems, and advanced applications, safeguarding sensitive data and systems from potential threats. The book also explores the latest advancements in 6G networks, smart cities, and the Internet of Things (IoT), providing a deep understanding of how these technologies are shaping the future and it illustrates how to utilize emerging technologies such as Blockchain, Deep Learning, Digital Twin, and others in a secure 6G-enabled Smart City. By fostering collaboration and innovation, this book serves as a platform for dialogue among researchers, practitioners, policymakers, and industry professionals and aims to drive collective action in addressing security challenges and advancing the development of secure 6G smart cities and IoT ecosystems.
By mastering the techniques outlined in the book, readers can gain a competitive edge in their respective fields, enabling them to develop innovative and secure solutions tailored to specific domains. Professionals in roles such as technical managers, data scientists, cybersecurity experts, and researchers can leverage the knowledge gained from the book to advance their careers and take on leadership roles in 6G Smart Cities and IoT projects within advanced contexts.
Theme 1: 6G Networks, Security, and Privacy in Smart Cities.
1.
Introduction to 6G: Transforming Smart Cities.
2. Modern Perspective
Knowledge of 6G Network.
3. Security Challenges in 6G Networks.
4. Security
Fundamentals for Smart City and IoT Ecosystems.
5. IoT Security Architectures
and Protocols.
6. Cyber-Physical Systems, Social Media in Secure IoT-enabled
Smart Infrastructure.
7. Privacy-Preserving Technologies for 6G-enabled
Secure Smart Cities.
8. Blockchain Complementary Model: A New Way of
Devouring Smart Data by Driverless Vehicles for Next-Generation
Communication.
9. Blockchain-based Secure Solutions for IoT and Smart City
Ecosystems in 6G Networks.
10. Anomaly Detection in 6G Smart Cities Using
Machine Learning and Deep Learning. Theme 2: AI, Blockchain, and Emerging
Technologies in 6G Smart Cities.
11. Zero Trust Schema Architecture for 6G
Smart City.
12. Ethical Considerations in Smart City Design with 6G.
13.
Digital Twin Convergence with 6G-Based Smart City.
14. Blockchain Technology
for a Secure Environment.
15. Fusion of Emerging Technologies for 6G-Enabled
Secure Smart City.
16. CPS-based Social Media 3.0 System with IoT for
Revolutionizing Connectivity.
17. Emerging Advanced Technologies-based
Services Scenario for Secure 6G Smart Cities.
18. The Benefits of Web and
Blockchain in Decision-Making for Industry 4.0. Theme 3: 6G-Enabled IoT,
Quantum Communication, and Smart City Applications.
19. Smart Healthcare
System: The Convergence of Blockchain and 6G IoT Network.
20. Revolutionizing
Crisis Response by Integrating IoT and NLP in Digital Marketing for Enhanced
Real-Time Response.
21. Smart Urban Green Spaces with IoT and 6G.
22.
Advanced Underwater Object Detection using AI: Integrating 6G and IoT
Technologies for Marine Ecosystem Monitoring.
23. Improved Solar Panel
Efficiency with Co-Generation Process.
24. Emerging Advanced Technologies and
Quantum Communication for Secure 6G Smart Cities: Architectures,
Applications, and Challenges.
25. Innovative Fault Diagnosis and Condition
Monitoring System for Motors, Gearboxes, and Actuators in Electromechanical
Valve Operations.
26. Edge Computing Security for Smart City Applications.
27. 6G-Enabled IoT for Fault-Tolerant Design in Consumer Electronics: A
Predictive Maintenance Approach.
28. AI-driven Security Solutions for Urban
Environments in 6G Smart Cities.
Sushil Kumar Singh is an Associate Professor in the Department of Computer Engineering at Marwadi University, Rajkot, Gujarat, India. He completed a Postdoc at London Metropolitan University, London, United Kingdom, under the supervision of Professor Bal Virdee. He received a Ph.D. degree from Seoul National University of Science and Technology, Seoul, South Korea, under the supervision of Professor Jong Hyuk Park. He received M.Tech. Degree in Computer Science and Engineering from Uttarakhand Technical University, Dehradun, India. He also received an M.E. degree in Information Technology from Karnataka State University, Mysore, India. His research interests include Blockchain, Artificial Intelligence, Big Data, Internet of Things, Smart City Security, and Cyber-Physical Systems.
Rajendrasinh B. Jadeja is working as a ProVost and Dean at the Faculty of Engineering, Marwadi University, Gujarat, India. He completed his B.E. in Electrical Engineering from L. D. College of Engineering (Gujarat University) in 1998, M. Tech. in Electrical Engineering from Nirma University, and a Ph.D. from the M S University, Baroda, respectively in the year of 2005 and 2010. His areas of research and interest include control of power electronic converters, AC drives, Pulse Width Modulated power electronic converters, and Power Quality Issues and their mitigation techniques.
Ashish Khanna is an Associate Professor at Maharaja Agrasen Institute of Technology (MAIT), Delhi. He has expertise in Teaching, Entrepreneurship, and Research and development with a specialization in Computer Science Engineering Subjects. He has done a postdoc at INATEL Brazil and the University of Valladolid, Spain, Europe. He received his Ph.D. from the National Institute of Technology, Kurukshetra, in March 2017. He completed his M. Tech. in 2009 and B. Tech. from GGSIPU, Delhi, in 2004.
Pushan Kumar Dutta is an Assistant Professor Grade III at Amity University Kolkata, specializing in Electronics and Communication Engineering. With a Ph.D. in Electronics and Telecommunication Engineering from Jadavpur University and a Post Doctorate, Erasmus Mundus Scholar, European Union Leaders Program with full Scholarship, University of Oradea, 2015-2016, Dr. Dutta has established himself as a prominent researcher and educator in his field. His research interests span data mining, AI, edge computing, and predictive analytics, with a focus on applications in smart cities, healthcare, and sustainable development.
Bal Virdee is a Senior Professor in Communications Technology at London Metropolitan University, School of Computing and Digital Media, where he is also the Head of the Communications Technology Research Center. He received the B.Sc. and M.Phil. degrees in communications engineering from the University of Leeds, U.K., and the Ph.D. degree in electronic engineering from the University of London, U.K. He has worked in industry for various companies, including Philips, U.K., as a Research and Development Engineer, and Teledyne Defence and Space as a Future Products Developer in RF/microwave communications. His research, in collaboration with industry and academia, is in wireless communications encompassing mobile phones to satellite technology.
