To improve the highway safety and throughput between vehicles in road traffic VANET are formed. Through CACC the inter vehicle communications are achieved to meet the control challenges in cooperative environment. Platoon management algorithms were formed to route the participating vehicles. This paper addresses the communication drawbacks between the vehicles in platoon. This paper proposes two topologies in CACC to minimize the communication delay. This paper proposes two topologies as One Vehicle Look – Ahead and Two Vehicle Look – Ahead with CACC. More than two vehicles are participating in the platoon and their string stability has been taken for performance evaluation. Performance analyses were made to five vehicles to identify the suitable one.

Assad Alam, “Fue Efficient Distributed Control for Heavy Duty Vehicle Platooning”, Licentiate Thesis, Stockholm, Sweden, 2011.

Ben – Jye Chang, Ying – Hsin Liang, Yao – De Huang, “Adaptive message forwarding for avoiding broadcast storm and guaranteeing delay in active safe driving VANET”, Springer, Wireless Network(2015) 21:739-756

Carl Bergenhem, Henrik Pettersson, Erik Coelingh, Cristofer Englund, Steven Shladover, Sadayuki Tsugawa, “Overview of Platooning Systems, 19th ITS World Congres”s, Vienna, Austria, October 2012.

Jeffrey Larson, Christoph Kammer, Kuo – Yun Liang, Karl Henrik Johansson, “Coordinated Route optimization for Heavy Duty Vehicle Platoons”, Proceedigs of the 16th International IEEE Annual Conferece on Intelligent Transport Systems , The Hague, The Netherlands, October 6-9,2013

J.Zhao and G.Cao , Vadd: “Vehicle assisted data delivery in vehicular ad hoc networks”, IEEE transactions, Vol 57, No 3, pp 1910 – 1922, May 2008

Miao Wang, Hanggun Shan, Rongxing Lu, Ran Zhang, Xuemin Shen, Fan Bai, “Real time path planning based on Hybrid VAET – Enhanced transportation system”, IEEE Transactions on Vehicular Technology, Vol 64,No 5, May 2015

M. Michaelian, F. Browand, “Field experiments demonstrate fuel savings for close-following”, California PATH program, Institute of Transportation Studies, University of California at Berkeey, 2000.

P.Variya, “Smart cars on smart roads: problems of control”, IEEE Trans. Autom. Control 38(2)(1993) 195 – 207

Bernardo. M, Salvi.A, and Santini.S (2015). “Distibuted consensus strategy for platooning of vehicle in the presence of time varying heterogeneous communication delays”, IEEE Transactions on Intelligent Transportation Systems, 16(1),102 - 112

Liu,X., Godsmith,A., Mahal,S.S., and Hedrick,J.K.(2001). “Effects of communication delay on string stability vehicle platoons.” In Proceedings of the IEEE Conference on Intelligent Transportation Systems, 625-630.

Seiler.P, Pant.A, and Hedrick.K (2004). “Disturbance propagation in vehicle strings” IEEE Transaction Automatic Control, 49(10),1835-1842

N. Wisitpongphan, O. Tonguz, J. Parikh, P. Mudalige, F. Bai, and V. Sadekar, “Broadcast storm mitigation techniques in vehiclular ad hoc networks”, Wireless Communicatins, IEEE, vol. 14, no 6, pp. 84-94, December 2007

N. Wisitpongphan, F. Bai, P. Mudalige V. Sadekar, and O. Tonguz. “Routing in sparse vehicular ad hoc wireless networks”, Selected Areas in Communication, IEEE Journal on, vol. 25, no.8, pp – 1538 – 1556, 2007.

The SARTRE homepage: www.sartre-project.eu. Bergenhem, Q. Huang, A. Benmimoun, T. Robinson, "Challenges of Platooning on Public Motorways," 17th World Congress on Intelligent Transport Systems, October 25-29, 2010, Busan, Korea.

Michael, J. B., D.N. Godbole, J. Lygeros and R. Sengupta, “Capacity Analysis of Traffic Flow Over a Single-Lane Automated Highway System”, ITS Journal, Vol. 4, 1998, pp. 49-80.