Abstract
In the near future, intelligent vehicles will be part of the Internet of Things (IoT) and will offer valuable services and opportunities that could revolutionise human life in smart cities. The Vehicular Ad-hoc Network (VANET) is the core structure of intelligent vehicles. It ensures the accuracy and security of communication in vehicle-to-vehicle (V2V) and vehicle-to-infrastructure (V2I) modes to enhance road safety and decrease traffic congestion. However, VANET is subject to security vulnerabilities such as denial-of-service (DoS), replay attacks and Sybil attacks that may undermine the security and privacy of the network. Such issues may lead to the transmission of incorrect information from a malicious node to other nodes in the network. In this paper, we present a biometrics blockchain (BBC) framework to secure data sharing among vehicles in VANET and to retain statuary data in a conventional and trusted system. In the proposed framework, we take advantage of biometric information to keep a record of the genuine identity of the message sender, thus preserving privacy. Therefore, the proposed BBC scheme establishes security and trust between vehicles in VANET alongside the capacity to trace identities whenever required. Simulations in OMNeT++, veins and SUMO were carried out to demonstrate the viability of the proposed framework using the urban mobility model. The performance of the framework is evaluated in terms of packet delivery rate, packet loss rate and computational cost. The results show that our novel model is superior to existing approaches.
Highlights
With the rapid advancement in smart cities, the number of intelligent vehicles in mobile ad-hoc networks has raised significantly
3) The performance of the framework is evaluated in terms of packet delivery rate, packet loss rate and computational cost
We present a comparative analysis with the existing algorithm such as ASC [40], LAKAP [41], BC-vehicular ad-hoc network (VANET) [3] and found to be superior in terms of packet delivery, packet loss and computational cost
Summary
With the rapid advancement in smart cities, the number of intelligent vehicles in mobile ad-hoc networks has raised significantly. In the 10 years, the number of intelligent vehicles is expected to reach 2 billion across the globe [1]. Vehicular ad-hoc network (VANET) has been created which is equipped with wireless communication devices named as on-board unit (OBU). These devices have hardware security chip to store sensitive information of the vehicle. Communications in VANET, can be categorized into vehicleto-vehicle (V2V) and vehicle-to-infrastructure (V2I) communication. Sharing valuable information about the traffic between the vehicles will be via the dedicated short-range
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