Increase in number of vehicles on Indian Highways as well as city road conditions lead to Traffic congestion and Road accidents which represent a serious social-economical problem. The majority of the accidents can be prevented if the driver uses relevant data about the road conditions of highways by using mobile technology. To relieve the danger plus seriousness of the route automobile accident. Many different innovative security applications could be recognized as a result of mobile interaction among the vehicles travelling close by each other. .Therefore in order to eliminated these problems non-dominated sorting differential evaluation dependent inter-cluster information aggregation have been suggested throughout this work.

Vanets, Routing Protocols, Proactive routing protocols, PBRP

[1] Kumari, NV Dharani, and B. S. Shylaja. "AMGRP: AHP-based multimetric geographical routing protocol for urban environment of VANETs." Journal of King Saud University-Computer and Information Sciences (2017).
[2] Hanan, Abdul Hafidz Abdul, et al. "Real traffic-data based evaluation of vehicular traffic environment and state-of-the-art with future issues in location-centric data dissemination for VANETs." Digital Communications and Networks 3.3 (2017): 195-210
[3] Rewadkar, Deepak, and DharmpalDoye. "FGWSO‐TAR: Fractional glowworm swarm optimization for traffic aware routing in urban VANET." International Journal of Communication Systems 31.1 (2018).
[4] Hassan, Ahmed Nazar, et al. "Multi-metric geographic routing for vehicular ad hoc networks." Wireless Networks (2017): 1-17.
[5] Taleb, Tarik, EhssanSakhaee, Abbas Jamalipour, Kazuo Hashimoto, Nei Kato and Yoshiaki Nemoto. "A stable routing protocol to support ITS services in VANETS." IEEE Transactions on 56, no. 6 (2007).
[6] Ali, FE & Ducourthial, B, 2014, "Keepalive service for VANET applications." , IEEE Wireless Communications and Networking
[7] Conference (WCNC), Istanbul, pp. 3172-3177.
[8] Feldmann, Anja. "Internet clean-slate design: what and why?." ACM SIGCOMM Computer Communication Review 37.3 (2007): 59-64.
[9] Eriksson, Jakob, HariBalakrishnan, and Samuel Madden. "Cabernet: vehicular content delivery using WiFi." Proceedings of the 14th ACM international conference on Mobile computing and networking. ACM, 2008.
[10] Belimpasakis, Petros, Seamus Moloney, VladStirbu, and Jose Costa-Requena. "Home media atomizer: remote sharing of home content-without semi-trusted proxies." Consumer Electronics, IEEE Transactions on 54, no. 3 (2008): 1114-1122.
[11] Gong, H, Yu, L, Liu, N & Zhang, X 2016, "Mobile content distribution with vehicular cloud in urban VANETs", China Communications, vol. 13, no. 8, pp. 84-96.
[12] Acampora, Giovanni, and Vincenzo Loia. "Using FML and fuzzy technology in adaptive ambient intelligence environments." International Journal of Computational Intelligence Research 1, no. 1 (2005): 171-182.
[13] Jacobson, Van, Diana K. Smetters, James D. Thornton, Michael F. Plass, Nicholas H. Briggs, and Rebecca L. Braynard. "Networking named content." In Proceedings of the 5th international conference on Emerging networking experiments and technologies, pp. 1-12. ACM, 2009.
[14] Vegni, Anna Maria, and Thomas DC Little. "Hybrid vehicular communications based on V2V-V2I protocol switching." International Journal of Vehicle Information and Communication Systems 2.3-4 (2011): 213-231.
[15] Cooper, C, Franklin, D, Ros, M, Safaei, F & Abolhasan, M 2016, "A Comparative Survey of VANET Clustering Techniques.", IEEE, DOI 10.1109/COMST.2016.2611524
[16] Telford, R & Galloway, S 2015, "Fault classification and diagnostic system for unmanned aerial vehicle electrical networks based on hidden Markov models",, IET Electrical Systems in Transportation, vol. 5, no. 3, pp. 103-111.