Abstract
Vehicular ad hoc networks have many access points for communication, transmission, and collecting information of nodes and environment for organization traffic loads. In this paper, we study emergency messaging connectivity in vehicular ad hoc networks (VANETs). Intelligence transportation system applications include two types applications. Comfort applications providing information to the driver about weather, maps and directions, locations, and safety applications are crucial for safety of the driver. This includes such as emergency warning, lane-changing assistance, intersection coordination, which are provided by inter-vehicle communication. Higher No of road accidents demands an intelligent transportation system. Implanting smart sensors, communication capabilities, memory storage, and information processing units in vehicles help us to design an intelligent transportation systems. We are studying the effect of delay of emergency message dissemination. Broadcasting is the familiar way of emergency message dissemination in VANETs. To reduce the broadcasting storm problem and improve scalability of VANET networks, we use a double-head cluster-based broadcasting mechanism. In this research paper, we study the broadcasting delay emergency message of VANET network. The minimum cluster size that achieves acceptable message delivery latency is provided. The simulation results matched those of the analytical model, which showed the analytical model developed in this paper is effective and efficient.
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References
Ishtiaq A et al (2019) Intelligent clustering using moth flame optimizer for vehicular ad hoc networks. Int J Distrib Sens Netw 15(1):1550147718824460
Haouari N, Moussaoui S, Senouci S-M (2018) Application reliability analysis of density—aware congestion control in VANETs. In: Proceedings of 2018 IEEE international conference on communications (ICC), Kansas City, MO, 20–24 May 2018. IEEE, New York, pp 1–6
Nasr MMM, Wang ZG, Shen LF (2016) VANET clustering based routing protocol suitable for deserts. Sensors 16(4):1–23
Kong X, Li M, Ma K, Tian K, Wang M, Ning Z, Xia F (2018) Big trajectory data: a survey of applications and services. IEEE Access 6:58295–58306
Jeong S, Baek Y, Son SH (2016) A hybrid V2X system for safety-critical applications in VANET. In: 2016 IEEE 4th international conference on cyber-physical systems, networks, and applications (CPSNA), pp 13–18
Lyu F, Zhu H, Zhou H, Zhang N, Li M, Shen X (2018) A novel time slot-sharing MAC for safety messages broadcasting in VANETs. IEEE Trans Veh Technol 67(4):3586–3597
Abuashour A, Kadoch M (2017) Performance improvement of cluster-based routing protocol in VANET. IEEE Access 5:15355–15371
Ramakrishnan B, Selvi M, Nishanth RB, Joe MM (2017) An emergency message broadcasting technique using transmission power based clustering algorithm for vehicular ad hoc network. Wireless Pers Commun 94:3197–3216
Cheng X, Chen C, Zhang W, Yang Y (2017) 5G-enabled cooperative intelligent vehicular (5GenCIV) framework: when benz meets marconi. IEEE Intell Syst 32(3):53–59
Mylonas Y, Lestas M, Pitsillides A (2015) Speed adaptive probabilistic flooding for vehicular ad hoc networks. IEEE Trans Veh Tech 64(5)
Liu J, Wan J, Jia D, Li D, Hsu C-H et al (2017) High-efficiency urban traffic management in context-aware computing and 5G communication. IEEE Commun Mag 55:34–40
Zhang D-G, Liu S, Zhang T, Liang Z (2017) Novel unequal clustering routing protocol considering energy balancing based on network partition & distance for mobile education. J Netw Comput Appl 88:1–9
Bitam S, Mellouk A, Zeadally S (2015) VANET-cloud: a generic cloud computing model for vehicular ad hoc networks. IEEE Wirel Commun 22(1):96–102
Cheng JJ, Cheng JL, Zhou MC et al (2015) Routing in internet of vehicles: a review. IEEE Trans Intell Transp Syst 16(5):2339–2352
Zheng J, Wang Y (2018) Connectivity analysis of vehicles moving on a highway with an entry and exit. IEEE Trans Veh Technol 67:4476–4486
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Jaipal, Nagar, D.M., Baghela, V. (2021). Efficient Emergency Message DHC Broadcasting in Vehicular Ad Hoc Networks. In: Goar, V., Kuri, M., Kumar, R., Senjyu, T. (eds) Advances in Information Communication Technology and Computing. Lecture Notes in Networks and Systems, vol 135. Springer, Singapore. https://doi.org/10.1007/978-981-15-5421-6_7
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DOI: https://doi.org/10.1007/978-981-15-5421-6_7
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