Abstract
In the last few decades, urban areas across the world have experienced rapid growth in transportation technology with a subsequent increase in transport-related challenges. These challenges have increased our need to employ technology for creating more intelligent solutions. One of the essential tools used to address challenges in traffic is providing vehicles with information about traffic conditions in nearby areas. Vehicle ad-hoc networks (VANETs) allow vehicle-to-vehicle (V2V) and vehicle-to-infrastructure (V2I) communication with the aim of providing safe and efficient transportation. Since drivers might make life-critical decisions based on information provided by other vehicles, dealing with rogue vehicles that send invalid data or breach users’ privacy is an essential security issue in VANETs. This paper proposes a novel privacy-preserving vehicular rogue node detection scheme using fog computing. The proposed scheme improves vehicle privacy, communication between vehicles, and computation efficiency by avoiding the exchange of traffic data between vehicles, allowing communication only through roadside units (RSUs). This scheme also proposes an RSU authentication mechanism, along with a mechanism that would allow RSUs to detect and eliminate vehicles providing false traffic data, which will improve the accuracy and efficiency of VANETs. The proposed scheme is analyzed and evaluated using simulation, which presents significant improvements for data processing, accurately detecting rogue vehicles, minimizing overhead, and immunizing the system against colluding vehicles.
Highlights
Vehicle ad-hoc networks (VANETs) represent the future of vehicle technology and intelligent transportation
Detection of rogue vehicles this paper proposes a secure authentication scheme to authenticate the communication between paper proposes a secure authentication scheme to authenticate the communication between The contribution of this paper is as follows: roadside units (RSUs)
RSU with the initial key K used to create the symmetric key K, and provide public‐private keys that will be used at the communication process with vehicles
Summary
Vehicle ad-hoc networks (VANETs) represent the future of vehicle technology and intelligent transportation. Communication that improves road safety, provides warning messages, increases comfort, and shares information (including media), among providing other services. Such features are available using vehicles’ ability to exchange safety messages between vehicles and the infrastructure, allowing drivers to avoid hazards and traffic congestion. In VANETs, vehicles are able to communicate with each other to provide information about traffic and road conditions This communication can be utilized to reduce road accidents and limit traffic congestion. It creates many security issues, since some vehicles can provide false information to other vehicles.
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