Abstract

In recent years, vehicle ad hoc networks (VANETs) have garnered considerable interest in the field of intelligent transportation systems (ITS) due to the added safety and preventive measures for drivers and passengers. Regardless of the benefits provided by VANET, it confronts various challenges, most notably in terms of user/message security and privacy. Due to the decentralised nature of VANET and its changeable topologies, it is difficult to detect rogue or malfunctioning nodes or users. Using an improved grasshopper optimization algorithm (IGOA-PHE) technique in VANETs, this research develops a new privacy-preserving partly homomorphic encryption with optimal key generation. The suggested IGOA-PHE approach is intended to provide privacy and security in VANETs. The proposed IGOA-PHE technique consists of two stages: an ElGamal public key cryptosystem (EGPKC) for PHE and an optimised key generation procedure based on IGOA. To enhance the security of the EGPKC approach, the keys are selected ideally utilising the IGOA. Additionally, the IGOA is derived by using Gaussian mutation (GM) and Levy flights ideas. The experimental investigation of the proposed IGOA-PHE approach is extensive. The resulting results demonstrated that the provided IGOA-PHE technique outperformed recent state-of-the-art methods.

Highlights

  • vehicle ad hoc networks (VANETs) are being developed as a subset of Mobile Adhoc Network (MANET) applications [1,2].VANET is being considered as a viable technology for intelligent transportation systems (ITS) [3]

  • The proposed IGOA-PHE technique consists of two stages: an ElGamal public key cryptosystem (EGPKC) for PHE and an optimised key generation procedure based on IGOA

  • To evaluate the proposed IGOA-PHE technique's security outcomes, a large number of simulations were run and the results examined using a variety of metrics

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Summary

Introduction

VANETs are being developed as a subset of Mobile Adhoc Network (MANET) applications [1,2]. VANET is being considered as a viable technology for intelligent transportation systems (ITS) [3]. Several scientists working in the field of wireless mobile transmission have placed a premium on VANET. The purpose of VANET is to provide an inter-vehicle transmission and road side unit (RSU) to vehicles in order to improve road safety, local traffic flow, and road traffic performance by providing timely and reliable data to road customers [4]. In a VANET, the OBU and RSU establish a link between themselves via dedicated short range communication (DSRC) via single/multi hop transmission [5].

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