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Full Description
Electric vehicles (EVs) continue to capture a growing share of the smart car market across the globe. Like most new technologies, e-mobility comes with a learning curve. Securing Electric Mobility provides readers with in-demand knowledge relating to the dynamically evolving intersection between information & communication technology and vehicle engineering.
The edited volume offers in-depth understanding of the distinct features of EV cybersecurity. It opens with a description of the fundamental elements of EVs, their interconnectedness, their cyber-physical characteristics and resulting vulnerabilities. It then dissects the digital threat landscape to increase awareness of all possible risks posed by cyberattacks on electric vehicles, and from there it systematically covers data management, regulatory frameworks, existing solutions and emerging cybersecurity protocols and methodologies that are enhanced by blockchain, artificial intelligence, Internet-of-Things integration, machine learning, and real-time monitoring systems. The value of this thorough overview is strengthened further through the inclusion of real-word case studies, which prove the effectiveness of the adopted approaches to safeguard vehicle control systems, owners' personal data, and the broader cyber-physical network and related equipment.
This book proves to be an indispensable, state-of-the-art resource for academia and industry alike as it encourages further transformative, interdisciplinary investigations into the security-assurance complexities that guide EVs' resilience evolution.
Contents
1. Introduction to electric mobility security
2. The anatomy of electric vehicles and connectivity
3. Understanding threats to electric vehicles and effective counter measures
4. Blockchain-based secure data communication and regularization framework for electric vehicles
5. Cybersecurity realities in electric vehicles
6. Implementing cybersecurity solutions: Energy-efficient path planning for intelligent electric vehicles
7. Simulation-based design and development of a wireless inductive-charging system for an electric vehicle
8. An overview of EV charging: Challenges and cybersecurity issues
9. Optimal planning of a smart parking lot in the active distribution network by implementing long short-term memory to predict uncertainties
10. Beyond electric vehicles: The broader impact
11. An analysis and assessment of lightweight cryptographic primitives for robust intelligent-systems security for electric vehicles
12. Real‑world case study in e‑mobility cybersecurity: Impact of randomness sources on the behavior of genetic algorithms for electric vehicles
13. Conclusions and future challenges
