Embedded Files
Towards a Greater Security of Internet of Vehicles
In recent years, Intelligent Transportation Systems (ITS) have caught the attention of industries and researchers, and the Internet of Vehicles (IoV) presents the latest advancements in this field. However, personal privacy is compromised by the information generated by the Internet of Vehicles (IoV) during regular operation. Even though IoV presents a beneficial aspect in helping enhance road safety, it has some issues related to security. Blockchain technology opens up possibilities for resolving those issues. Blockchain has several benefits; however, it can also have disadvantages related to energy consumption, as some algorithms utilize a large amount of energy to do the needed calculations. In this project, a baseline strategic solution to secure data sharing among IoV using blockchain technology is proposed while considering the latency of data exchange.
Events: AGYA Workshop “Embedded Systems: Applications in the Automotive Area” at the Nile University, Cairo, 29 September 2024!
Link to publications:
El Madani, S., Motahhir, S., & El Ghzizal, A. (2024). Combination between internet of vehicles and advanced driver assistance systems: overview and description. Multimedia Tools and Applications, 1-18. https://doi.org/10.1007/s11042-024-20486-3
El Madani, S., Motahhir, S., & El Ghzizal, A. (2022). Internet of vehicles: concept, process, security aspects and solutions. Multimedia Tools and Applications, 81(12), 16563-16587. https://doi.org/10.1007/s11042-022-12386-1
Aboubakr El Hammoumi, Saad Motahhir (2025). Embedded Systems in Automotive Applications. Elsevier. ISBN: 0443338620.
Editors: Aboubakr El Hammoumi, Saad Motahhir
Paperback ISBN: 9780443338618
eBook ISBN: 9780443338625
About
With its well-thought-out overview of the topic, Embedded Systems in Automotive Applications serves diverse audience across both in academia and industry. The volume discusses the AUTOSAR architecture and standards, highlighting their role in enabling the integration of emerging technologies such as blockchain-based security within the Internet of Vehicles. It further addresses embedded software design, implementation, and validation techniques that are fundamental to developing reliable and safety-critical automotive systems. In addition, it examines electric vehicle technologies, with particular focus on advanced battery management strategies and real-time power and health monitoring. Autonomous driving is explored through LiDAR-SLAM techniques and FPGA-based hardware architectures designed to support robust vehicle navigation. The book also emphasizes vehicle connectivity and telematics applications, encompassing innovations in smart mobility and intelligent transport. Together, these themes provide readers with a rigorous and well-rounded understanding of the challenges, methodologies, and opportunities shaping next-generation automotive embedded systems.
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