In present day world, the quantities of vehicles are expanding eccentrically and therefore mishaps, criminal traffic offenses; vehicle robbery and so forth additionally expanded a ton. Following definite area of every vehicle (hub) might be helpful in taking care of numerous such issues. From metropolitan to provincial the thickness of traffic, width of the street, network inclusion and so forth might change; this makes confinement of vehicle a difficult errand. The development of transport framework doesn`t give a genial answer for these issues and here and there it even makes such issues more serious. This paper centers around the review of area discovery for every vehicle as well concerning the walkers alongside different directing procedures in a VANET.

VANET, localization, intelligent transportation system

[1] S Rehman, M. A Khan, T A. Zia, L Zheng “Vehicular Ad-Hoc Networks (VANETs) - An Overview and Challenges”, Journal of Wireless Networking and Communications, Vol . 3, Issue. 3, pp. 29-3,2013.
[2] N Lu, N Cheng, N Zhang, J Mark “Connected Vehicles: Solutions and Challenges”, IEEE Internet of Things Journal, Vol. 1,Issue. 4 , pp. 289-299, 2014
[3] H. Varun Chand, J. Karthikeyan “Recent Survey on Traffic Optimization in Intelligent Transportation System”, Journal of Advanced Research in Dynamical & Control Systems, 15-Special Issue, (2017): pp. 89-100.
[4] H. Varun Chand, J. Karthikeyan “Survey on the Role of IoT in Intelligent Transportation System”, Indonesian J. of Electrical Engineering and Computer Science, Vol. 11, Issue. 3, pp. 936~941,2018
[5] F Llorca, David, R Quintero Minguez, I P Alonso, C Fernandez Lopez, I G Daza, M A Sotelo, and C A Cordero. “Assistive Intelligent Transportation Systems: The Need for User Localization and Anonymous Disability Identification”, IEEE Intelligent Transportation Systems Magazine,Vol. 9,Issue 2, pp. 25-40, 2017.
[6] Ahmad, Fawad, and S Ali Mahmud. “Poster: Accurate Vehicle Detection in Intelligent Transportation Systems (ITS) using Wireless Magnetic Sensors”, In Proceedings of the 13th ACM Conference on Embedded Networked Sensor Systems, : pp. 385-386,2015.
[7] Gregor, Derlis, S. Toral, T. Ariza, F Barrero, Raúl Gregor, Jorge Rodas, and M Arzamendia. “A methodology for structured ontology construction applied to intelligent transportation systems”, Computer Standards & Interfaces, Vol. 47 pp. 108-119,2016.
[8] Giovanna, Chilà, Musolino Giuseppe, P Antonio, R Corrado, R Francesco, and V Antonino. “Transport models and intelligent transportation system to support urban evacuation planning process”, IET Intelligent Transport Systems, Vol. 10, Issue. 4 : pp. 279-286,2016.
[9] Guan, Ke, Bo Ai, A Fricke, Danping He, Z Zhong, David W. Matolak, and T Kürner. “Excess Propagation Loss Modelling of Semiclosed Obstacles for Intelligent Transportation System”, IEEE Transactions on Intelligent Transportation Systems, Vol. 17, Issue. 8 , pp. 2171-2181,2017
[10] Ko, Young Dae, Young Jae Jang, and Min Seok Lee. “The optimal economic design of the wireless powered intelligent transportation system using genetic algorithm considering nonlinear cost function”, Computers & Industrial Engineering, Vol. 89 , pp. 67-79,2015
[11] Tang, Suhua, N Kubo, N Kawanishi, R Furukawa, Akio Hasegawa, and Y Takeuchi. “Cooperative relative positioning for intelligent transportation system”, International Journal of Intelligent Transportation Systems Research Vol.13, Issue 3 pp. 131-142,2015.
[12] M de Souza, R S Yokoyama, G Maia, A Loureiro, and L Villas, “Real-time path planning to prevent traffic jam through an intelligent transportation system”, In Computers and Communication (ISCC), IEEE Symposium, pp. 726-731, 2016
[13] A C Hosu, Z I Kiss, I A Ivanciu, M Varga, and Z A Polgar, “Integrated ubiquitous connectivity and centralised information platform for intelligent public transportation systems”, IET Intelligent Transport Systems Vol. 9, Issue. 6 pp. 573-581,2016
[14] R Tomar, M Prateek, G. H. Sastry. Vehicular Adhoc Network (VANET) - An Introduction, International Journal of Control Theory and Applications, International Science Press, Vol. 9, No. 18, (2016), pp.8883-8888.
[15] P Ranjan, K K Ahirwar, Comparative Study of VANET and MANET Routing Protocols. In Proceedings of the International Conference on Advanced computing and communication Technologies (2011), pp. 517-523.
[16] S Rehman, M A Khan, T A Zia, L Zheng Vehicular Ad-Hoc Networks (VANETs) - An Overview and Challenges Journal of Wireless Networking and Communications, Vol. 3, No. 3, (2013), pp.29-38.
[17] J Petajajarvi, K Mikhaylov, A Roivainen, T Hanninen, M Pettissalo, On the Coverage of LPWANs: Range Evaluation and Channel Attenuation Model for LoRa, IEEE 14 th International Conference on ITS Telecommunications, (2015), pp. 55-59. https://doi.org/10.1109/ITST.2015.7377400.