Publication

Abstract : The Internet of Vehicles (IoV), with advanced technology in 5G communication, is considered the backbone of a smart city’s intelligent transport system. There are mainly two types of vehicular communication: (1) Vehicle to Vehicle (V2V) and (2) Vehicle to Infrastructure (V2I). In IoV, there is a dynamic change in the network topology according to the controllers, destination, vehicle movement, and road structure. Intelligent vehicles are assumed to work with the capacity of data processing, data storage devices, and communication devices to communicate with vehicles or Roadside InfraStructure (RSI). This article presents a post-quantum secure ring learning with error-based key exchange. This assumption ensures security against quantum attacks. The proposed design is an ant colony optimization-based ad hoc ordered distance vector routing algorithm that avoids suspicious vehicles in IoV broadcasting. The proposed framework consists of three parts: (i) certificate authority, (ii) suspicious vehicle detecting algorithm, and (iii) optimal path selection algorithm. The performance analysis Section contains an analysis of the proposed design with related ones, and the proposed has better results.