Open Access  Subscription or Fee Access

Vehicular ad hoc networks (VANETs) are wireless networks that do not require any fixed infrastructure. Regarding traffic safety applications for VANETs, warning messages have to be quickly and smartly disseminated in order to reduce the required dissemination time and to increase the number of vehicles receiving the traffic warning information. Adaptive techniques for VANETs usually consider features related to the vehicles in the scenario, such as their density, speed, and position, to adapt the performance of the dissemination process. These approaches are not useful when trying to warn the highest number of vehicles about dangerous situations in realistic vehicular environments. The Profile-driven Adaptive Warning Dissemination Scheme (PAWDS) designed to improve the warning message dissemination process. PAWDS system that dynamically modifies some of the key parameters of the propagation process and it cannot detect the vehicles which are in the dangerous position. Proposed system identifies the vehicles which are in the dangerous position and to send warning messages immediately. The vehicles must make use of all the available information efficiently to predict the position of nearby vehicles.

Ad Hoc Network, GPS, OBU, RSU, PAWDS, Security, VANET

Y.-C. Tseng, S.-Y. Ni, Y.-S. Chen, and J.-P. Sheu, “The broadcast storm problem in a mobile ad hoc network,” Wireless Netw., vol. 8, pp. 153–167, 2002.

F. J. Martinez, M. Fogue, M. Coll, J.-C. Cano, C. Calafate, P. Manzoni, M. Crovella, L. Feeney, D. Rubenstein, and S. Raghavan, Eds., “Evaluating the impact of a novel warning message dissemination scheme for VANETs using real city maps,” in Proc. NETWORKING, Berlin/Heidelberg, Germany, 2010, vol. 6091, pp. 265–276.

N. Wisitpongphan, O. K. Tonguz, J. S. Parikh, P. Mudalige, F. Bai, and V. Sadekar, “Broadcast storm mitigation techniques in vehicular ad hoc networks,” Wireless Commun., vol. 14, pp. 84–94, 2007.

K. Suriyapaibonwattana and C. Pornavalai, “An effective safety alert broadcast algorithm for VANET,” in Proc. ISCIT, Oct.

Y. Bi, L. Cai, X. Shen, and H. Zhao, “A cross layer broadcast protocol for multihop emergency message dissemination in inter-vehicle com- munication,” in Proc. IEEE ICC, May 2010, pp. 1–5.

N. Mariyasagayam, H. Menouar, and M. Lenardi, “An adaptive for- warding mechanism for data dissemination in vehicular networks,” in Proc. IEEE VNC, Tokyo, Japan, Oct. 2009, pp. 1–5.

L. Miao, F. Ren, C. Lin, and A. Luo, “A-ADHOC: An adaptive real- time distributed MAC protocol for vehicular ad hoc networks,” in Proc.4th ChinaCOM, Xi’an, China, Aug. 2009, pp. 1–6.

S. A. Arzil, M. H. Aghdam, and M. A. J. Jamali, “Adaptive routing protocol for vanets in city environments using real-time traffic infor- mation,” in Proc. ICINA, Oct. 2010, vol. 2, pp. 132–136.

C. Tee and A. Lee, “Adaptive reactive routing for VANET in city en- vironments,” in Proc. 10th ISPAN, Kaoshiung, Taiwan, Dec. 2009.

K. Suriyapaiboonwattana, C. Pornavalai, and G. Chakraborty, “An adaptive alert message dissemination protocol for VANET to improve road safety,” in Proc. FUZZ-IEEE, Aug. 2009, pp. 1639–1644.

N. Jianwei, L. Chang, C. Canfeng, and M. Jian, “Adaptive copy and spread data dissemination in vehicular ad-hoc networks,” in Proc. IEEE ICCTA, Oct. 2009, pp. 934–939.

M. Fogue, P. Garrido, F. J. Martinez, J.-C. Cano, C. T. Calafate, and P. Manzoni, “Analysis of the most representative factors affecting warning message dissemination in VANETs under real roadmaps,” in Proc. 19th Annu. Meeting IEEE MASCOTS, Singapore, Jul. 2011.