Advanced SearchSearch Tips
Routing Algorithm of VANET for an Efficient Path Management in Urban Intersections
facebook(new window)  Pirnt(new window) E-mail(new window) Excel Download
 Title & Authors
Routing Algorithm of VANET for an Efficient Path Management in Urban Intersections
Cho, Sunghyun; Kim, Seokwoo;
  PDF(new window)
This paper proposes a vehicle ad-hoc network (VANET) routing algorithm to reduce the probability of routing path discontinuity in urban intersections. In urban intersections, the vehicles may frequently change their moving directions. It can cause the disconnection of routing path and the increase of a packet transmission delay. In order to resolve this problem, the proposed routing algorithm exploits the information of moving directions in urban intersections. In this way, the proposed algorithm can reduce the probability of the local maximum which causes the increase of the number of routing hops and packet transmission delay. Simulation results show that the proposed algorithm can reduce the local maximum probability by 10% and increase the successful packet transmission ratio by 5% compared to the conventional VANET routing algorithms.
vehicular ad-hoc network (VANET);routing;intersection;routing path;delay;
 Cited by
차량 네트워크에서 고속 영상처리 기반 스마트 카메라 기술,손상현;김태욱;전용수;백윤주;

한국통신학회논문지, 2015. vol.40. 1, pp.152-164 crossref(new window)
차량 이동 방향과 밀집도를 고려한 UIGRP(Urban Intersection based Geographic Routing Protocol) 설계,이병관;정은희;

한국산학기술학회논문지, 2015. vol.16. 1, pp.703-712 crossref(new window)
U.S. Dept. Transportation, Vehicle Infrastructure Integration Project, retrieved Aug, 20, 2013, from

T. Mishra, D. Garg, and M. M. Gore, "A publish/subscribe communication infrastructure for VANET applications," in Proc. IEEE Workshop Int. Conf. Advanced Inform. Networking Applicat. (WAINA), pp. 442-446, Biopolis, Singapore, Mar. 2011.

J. Maker and I. Chakeres, Mobile ad-hoc network(MANET), retrieved Aug., 20, 2013, from

J. Nzouonta, "VANET routing on city roads using real-time vehicular traffic information," IEEE Trans. Veh. Technol., vol. 58, no. 7, pp. 3609-3626, Sep. 2009. crossref(new window)

P. Rani, N. Sharma, and P. K. Singh, "Performance comparison of VANET routing protocols," in Proc. Int. Conf. Wireless Commun., Networking, Mobile Comput. (WiCOM), pp. 1-4, Wuhan, China, Sep. 2011.

W. Wang, F. Xie, and M. Chatterjee, "Small-scale and large-scale routing in vehicular ad hoc networks," IEEE Trans. Veh. Technol., vol. 58, no. 9, pp. 5200-5213, Nov. 2009. crossref(new window)

V. Govindaswamy, W. L. Blackstone, and G. Balasekara, "Survey of recent position based routing mobile ad-hoc network protocols," in Proc. Int. Conf. Comput. Modeling Simulation (UKSim), pp. 467-471, Cambridge, U.K., Mar. 2011.

S. Choi and J. Lee, "The AODV routing protocol for inter-vehicle automobility," in Proc. Korea Multimedia Soc. (KMMS) 2010, vol. 13, no. 1, pp. 452-455, Seoul, Korea, May 2010.

B. Karp and H. T. Kung, "GPSR : Greedy Perimeter Stateless Routing for wireless network," in Proc. ACM/IEEE MobiCom '00, pp. 243-254, Boston, U.S.A., Aug. 2000.

C. Lochert, H. Hartenstein, J. Tian, and H. Fussler, D. Hermann, and M. Mauve, "A routing strategy for vehicle ad hoc networks in city environments," in Proc. IEEE Intell. Veh. Symp. (IV 2003), pp. 156-161, Columbus, U.S.A., June 2003.

B. Seet, G. Liu, B. Lee, C. Foh, K. Wong, and K. Lee, "A-star: A mobile ad hoc routing strategy for metropolis vehicular communications," Lecture Notes Comput. Sci., vol. 3042, pp. 989-999, May 2004.

J. Zhao and G. Cao, "VADD: Vehicle-assisted data delivery in vehicular ad hoc networks," IEEE Trans. Veh. Technol., vol. 57, no. 3, pp. 1910-1922, May 2008. crossref(new window)

C. Lochert, M. Mauve, H. Fussler, and H. Hartenstein, "Geographic routing in city scenarios," ACM SIGMOBILE Mobile Comput. Commun. Review, vol. 9, no. 1, pp. 69-72, Jan. 2005.