Abstract
In recent years, Vehicular ad hoc networks (VANETs) could facilitate the decision-making progress of the drivers for example trip planning with the consideration of traffic. In the VANET, the Sybil attack is a very serious attack that collapses the security. In literature, some of the methods are reviewed to detect Sybil attacks in VANETs, but it fails to achieve Sybil attack detection. Hence, in this paper, Emperor Penguin Optimization-based Routing protocol (EPORP) is developed for detecting the Sybil attack which enhances the VANETs security. The main motive of the research is detecting the Sybil attack in VANETs for enhancing the secure operation. In the proposed approach, the Sybil attack will be detected with the help of the Rumour riding technique. To enhance the security of the VANETs, the Split XOR (SXOR) operation is utilized. In the SXOR operation, the optimal key is selected with the help of Emperor Penguin Optimization (EPO). The proposed method is implemented in the NS2 platform and performances are evaluated by metrics such as delay, throughput, delay, encryption time, and decryption time. The proposed method is compared with existing methods such as Whale Optimization Algorithm (WOA), Particle Swarm Optimization (PSO), and Firefly Algorithm (FA) respectively. While analyzing the delivery ratio, the proposed method has 0.96 s, and the WOA, PSO, and FA are 0.94, 0.92, and 0.90 respectively. From the analysis, the proposed method has a high delivery ratio value compared with the WOA, PSO, and FA methods. Similarly, the other parameters are analyzed and compared with the existing methods.
Highlights
Vehicular Ad Hoc Networks (VANETs) have arisen as a spine of the up and coming age of IntelligentTransport Systems (ITSs) in the course of the most recent twenty years, prompting more secure and more effective thruways
This paper proposes the Emperor Penguin Optimization Based Routing Protocol to settle the issues in VANETs
A⃗ and c⃗ can be coefficients that used for avoiding collision among neighbors, d⃗ can be represented as the distance among best fitness search agent and emperor penguin, r⃗⃗⃗s⃗ can be represented position vector of emperor penguins, Y⃗⃗ can be represented as the current iteration, r⃗ can be represented as the best optimal pulses and s(a⃗) can be represented as the social forces of emperor penguins which is responsible to move towards the path of best optimal best solution that best search agents
Summary
Vehicular Ad Hoc Networks (VANETs) have arisen as a spine of the up and coming age of Intelligent. The Rumour riding process has been developed to predict the corrupted RSU or attack node or malicious nodes in the VANET network. This protocol completely identifies the corrupted RSU in the VANET. Prior to joining the network, each vehicle must detain a set of pseudonyms that are changed regularly, so that the vehicle cannot be tracked by an adversary, and remains anonymous throughout the communication In this proposed methodology, the vehicle identity encrypted with the help of SXOR operation. The SXOR operation is utilized to secure the data as well as vehicle identify which enables the proper location privacy scheme in VANET.
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