Abstract
The lack of communication between vehicles and the increased traffic delays that increase pollution and fuel consumption are the two factors contributing to the rise in road accidents today. A VANET protocol is put in place as a solution to lessen traffic congestion and accidents on the roads. The wireless network between the cars is necessary for the suggested method to work. The device is part of a wireless control node for an intersection that selects the best phases and values for traffic lights. The protocol used in this paper offers traffic fluency as compared to adaptive systems based on the use of cameras. Additionally, a simulator for integrated system validation has been developed for it. The simulation framework consists of a wireless network simulator and an accurate model of vehicle navigation. The suggested method is to set up a working system that can be examined during peak times, and acceptable outcomes are anticipated that will result in a reduction in average delays, pollution, and fuel consumption.
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References
Mohammed AA (2022) Designing a control system for traffic lights by VANET protocol. Int J Nonlinear Anal Appl 13(1):1659–1666. https://doi.org/10.22075/ijnaa.2022.5781
Karunakar P, Matta J, Singh RP, Kumar O (2020) Analysis of position based routing Vanet protocols using Ns2 simulator. Int J Innov Technol Explor Eng (IJITEE) 9(5):1105–1109
AL-Kharasani NM, Zuriati AZ, Shamala K, Zurina MH (2020) An adaptive relay selection scheme for enhancing network stability in VANETs. IEEE Access 8:128757–128765
Chen W, Guha RK, Known TJ, Lee J, Hsu YY (2011) A survey and challenges in routing and data dissemination in vehicular Ad Hoc networks. Wirel Commun Mob Comput 11(7):787–795
Zhu M, Cao J, Pang D, He Z, Xu M (2015) SDN-based routing for efficient message propagation in VANET. In: International conference on wireless algorithms, systems and applications, pp 788–797
Ucar S, Ergen SC, Ozkasap OR (2016) Multichip-cluster-based IEEE 802.11p and LTE hybrid architecture for VANET safety message dissemination. IEEE Trans Veh Technol 65(4):2621–2636
Tomar I, Sreedevi I, Pandey N (2022) State-of-art review of traffic light synchronization for intelligent vehicles: current status, challenges, and emerging trends. Electronics 11:465
Rashid SA, Audah L, Hamdi MA, Abood MS, Alani S (2020) Reliable and efficient data dissemination scheme in VANET: a review. Int J Electr Comput Eng (IJECE) 10(6)
Mohanty A, Mahapatra S, Urmila B (2019) Traffic congestion detection in a city using clustering techniques in VANETs. Indonesian J Electr Eng Comput Sci 13:884–891. https://doi.org/10.11591/ijeecs.v13.i3.pp884-891
Pandey AK (2013) Simulation of traffic movement in VANET using Sumo. Unpublished Thesis, National Institute of Technology, Rourkela
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Kasyap, M.G., Gayathri, A., Chandana, Y., Naik, V.V., Devi, Y.S. (2023). Design of Traffic Monitoring System by Greedy Perimeter Stateless Routing Protocol. In: Yadav, A., Nanda, S.J., Lim, MH. (eds) Proceedings of International Conference on Paradigms of Communication, Computing and Data Analytics. PCCDA 2023. Algorithms for Intelligent Systems. Springer, Singapore. https://doi.org/10.1007/978-981-99-4626-6_4
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DOI: https://doi.org/10.1007/978-981-99-4626-6_4
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