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A Cognizant-Occupying Path for VANET’s Using Hybrid Metaheuristic Algorithm

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Abstract

Vehicle ad hoc networks, also known as VANETs, are characterized by their dynamic nature, exceptional mobility, and random network architecture. The functionality of the Transmission Head Arrangement on WSN can be hindered by a number of problems, some of which include frequent connection delinquencies, adaptabilities, various-bounce, data transfer, and data loss. In order to solve the issue, the authors of this work propose implementing a portability-aware region occupied routing in VANET.

As the ideal approach for routing, a hybrid optimization strategy is implemented. The hybrid technique achieves optimal outcomes by employing both ant colony optimization (ACO) and artificial bee colony optimization (ABCO). When constructing the fitness function, connection stability and residual energy were both taken into account. Various indicators, including the delivery ratio, the amount of time, and the overhead expenditures, are used to evaluate the plan's effectiveness. Unlike the performance of other algorithms, the efficacy of the proposed technique is superior.

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Authors and Affiliations

  1. Department of Instrumentation & Control Engineering, Dr. B. R Ambedkar National Institute of Technology, Jalandhar, Punjab, India

    Deepak Choudhary & Roop Pahuja

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  1. Deepak Choudhary
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  2. Roop Pahuja
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First Author has written the manuscript and software validation & second has reviewing and supervising.

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Correspondence to Deepak Choudhary.

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Choudhary, D., Pahuja, R. A Cognizant-Occupying Path for VANET’s Using Hybrid Metaheuristic Algorithm. Wireless Pers Commun 131, 233–249 (2023). https://doi.org/10.1007/s11277-023-10426-z

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