CFP last date
20 January 2025
Reseach Article

Article:A Survey on Data Dissemination Techniques used in VANETs

by Brij Bihari Dubey, Naveen Chauhan, Prashant Kumar
International Journal of Computer Applications
Foundation of Computer Science (FCS), NY, USA
Volume 10 - Number 7
Year of Publication: 2010
Authors: Brij Bihari Dubey, Naveen Chauhan, Prashant Kumar
10.5120/1496-2013

Brij Bihari Dubey, Naveen Chauhan, Prashant Kumar . Article:A Survey on Data Dissemination Techniques used in VANETs. International Journal of Computer Applications. 10, 7 ( November 2010), 5-10. DOI=10.5120/1496-2013

@article{ 10.5120/1496-2013,
author = { Brij Bihari Dubey, Naveen Chauhan, Prashant Kumar },
title = { Article:A Survey on Data Dissemination Techniques used in VANETs },
journal = { International Journal of Computer Applications },
issue_date = { November 2010 },
volume = { 10 },
number = { 7 },
month = { November },
year = { 2010 },
issn = { 0975-8887 },
pages = { 5-10 },
numpages = {9},
url = { https://ijcaonline.org/archives/volume10/number7/1496-2013/ },
doi = { 10.5120/1496-2013 },
publisher = {Foundation of Computer Science (FCS), NY, USA},
address = {New York, USA}
}
%0 Journal Article
%1 2024-02-06T19:59:05.675995+05:30
%A Brij Bihari Dubey
%A Naveen Chauhan
%A Prashant Kumar
%T Article:A Survey on Data Dissemination Techniques used in VANETs
%J International Journal of Computer Applications
%@ 0975-8887
%V 10
%N 7
%P 5-10
%D 2010
%I Foundation of Computer Science (FCS), NY, USA
Abstract

In vehicular ad hoc networks data transfer is typically done with the help of multihop communication in which the high speed vehicles are acting as the data carrier. The vehicles are constrained to move on definite path depending on the road layout and the traffic conditions. In vehicular ad hoc network multihop data delivery is very complicated job because of the high mobility and frequent disconnections occurring in the vehicular networks. The biggest challenge in vehicular ad hoc networks is the collection of information like accident, speed limit, any obstacle on road, road condition, traffic condition, commercial advertisement, etc, for the safety and convenience purpose. In many dissemination techniques, the vehicle carries the packet until it finds any other vehicle in his range which is moving towards the direction of the destination and then it forwards the packet to that vehicle. Since the road layouts are already defined, the vehicle selects the next road having minimum latency to forward the packet to the destination. We can only calculate the probabilistic estimate that which path should be followed for minimizing delay so that limited available bandwidth can be efficiently utilized.

References
  1. J. Zhao and G. Cao, “VADD: Vehicle-assisted data delivery in vehicular ad hoc networks,” IEEE Transaction Vehicular Technology, Vol. 57, No. 3, pp. 1910–1922, May 2008.
  2. T. Arnold, W. Lloyd, J. Zhao, and G. Cao, “IP address passing for VANETs,” in Proceedings IEEE International Conference PerCom, pp. 70–79, March 2008.
  3. A. Skordylis and N. Trigoni, “Delay-bounded routing in vehicular ad-hoc networks,” in Proc. ACM MOBIHOC, pp. 341–350, 2008.
  4. Y. Toor, P. Muhlethaler, A. Laouiti, and A. Fortelle, “Vehicular ad hoc networks: Applications and related technical issues,” Commun. Surveys Tuts., Vol. 10, No. 3, pp. 74–88, 2008.
  5. B. Ducourthial, Y. Khaled, and M. Shawky, “Conditional transmissions: Performance study of a new communication strategy in VANET,” IEEE Transaction Vehicular Technology, Vol. 56, No. 6, pp. 3348–3357, November 2007.
  6. S. Das, H. Pucha, and Y. Hu, “Performance Comparison of Scalable Location Services for Geographic Ad Hoc Routing,” in Proceedings IEEE INFOCOM, Miami, FL, pp. 1228–1239, 2005.
  7. B. Ducourthial, Y. Khaled, and M. Shawky, “Conditional transmissions: Performance study of a new communication strategy in VANET,” Transaction Vehicular Technology, Vol. 56, Number 6, pp. 3348–3357, November 2007.
  8. J. Zhao, Y. Zhang, and G. Cao, "Data Pouring and Buffering on the Road: A New Data Dissemination Paradigm for Vehicular Ad Hoc Networks," in IEEE Transaction on Vehicular Technology, Vol. 56, No. 6, pp. 3266-3276, 2007.
  9. G. Korkmaz, E. Ekici, F. Ozguner, and U. Ozguner, “Urban multi-hop broadcast protocol for inter-vehicle communication systems,” in Proceedings of VANET, October 2004.
  10. Murat Caliskan, Andreas Barthels, Bjrn Scheuermann, and Martin Mauve, “Predicting Parking Lot Occupancy in Vehicular Ad Hoc Networks”,65th IEEE Vehicular Technology Conference, (VTC2007), pp. 277-281, April 2007.
  11. Naoki Shibata, et. al., “A Method for Sharing Traffic Jam Information using Inter-Vehicle Communication”, http://itolab.naist.jp/themes/pdffiles/060725.shibata.v2vcom06.pdf.
  12. Q. Xu, T. Mark, J. Ko, and R. Sengupta, “Vehicle-to-Vehicle Safety Messaging in DSRC,” in Proceedings of VANET, October 2004.
  13. X. Yang, J. Liu, F. Zhao and N. Vaidya, “A Vehicle-to-Vehicle Communication Protocol for Cooperative Collision Warning,” International Conference on Mobile and Ubiquitous Systems: Networking and Services (MobiQuitous 2004), Aug. 2004.
  14. J. Yin, T. Eibatt, G. Yeung, B. Ryu, S. Habermas, H. Krishnan, and T. Talty, “Performance Evaluation of Safety Applications over DSRC Vehicular Ad Hoc Networks,” in Proceedings of VANET, October 2004.
  15. Giovanni Resta, Paolo Santi, Janos Simon, “Analysis of Multi-Hop Emergency Message Propagation in Vehicular Ad Hoc Networks”, Proceedings 8th ACM international symposium on Mobile ad hoc networking and computing pp. 140-149, 2007.
  16. S. S. Manvi, M. S. Kakkasageri, Issues in mobile ad hoc networks for vehicular communication , IETE Technical Review, Vol. 25, No. 2, pp. 59-72, March-April, 2008.
  17. Navrati Saxena, Kalyan Basu, and Sajal K. Das, “Design and Performance Analysis of a Dynamic Hybrid Scheduling Algorithm for Heterogeneous Asymmetric Environments”, 18th International Parallel and Distributed Processing Symposium, (IPDPS 2004), pp. 26-30, April 2004.
  18. http://www.leearmstrong.com/DSRC/DSRCHomeset.htm
  19. B. Xu, A. Ouksel, and O. Wolfson, “Opportunistic resource exchange in inter-vehicle ad hoc networks,” in Proceedings IEEE International Conference MDM, pp. 4–12, 2004.
  20. A. Demers, D. Greene, C. Hauser, W. Irish, J. Larson, S. Shenker, H. Sturgis, D. Swinehart, and D. Terry, “Epidemic algorithms for replicated database maintenance,” Oper. Syst. Rev., Vol. 22, No. 1, pp. 8–32, 1988.
  21. Z. Haas, J. Halpern, and L. Li, “Gossip-based ad hoc routing,” in Proceedings IEEE Infocom, pp. 1707–1716, 2002.
  22. G. Karlsson, V. Lenders, and M. May, “Delay-tolerant broadcasting,” in Proceedings SIGCOMM Workshop CHANTS, Pisa, Italy, pp. 197–204, 2006.
  23. Wireless LAN Media Access Control (MAC) and Physical Layer (PHY) Specifications, IEEE Std. 802.11, 1999. [Online]. Available: http://grouper.ieee.org/groups/802/11
  24. D. Goodman, J. Borras, N. Mandayam, and R. Yates, “INFOSTATIONS: A new system model for data and messaging services,” in Proceedings IEEE VTC, Rome, Italy, Vol. 2, pp. 969–973, May 1997.
  25. A. Nandan, S. Das, G. Pau, M. Gerla, and M. Sanadidi, “Co-operative downloading in vehicular ad-hoc wireless networks,” in Proceedings 2nd Annual Conference WONS, pp. 32–41, 2005.
  26. Y. Zhang, J. Zhao, and G. Cao, “On scheduling vehicle-roadside data Access,” in Proceedings. ACM VANET, pp. 10–19, 2007.
  27. “GB Traffic Volumes,” www.mapmechanics.com, May 2005.
  28. A. Gupta, V. Chaudhary, V. Kumar, B. Nishad, S. Tapaswi, “VD4: Vehicular Density-dependent Data Delivery Model in Vehicular Ad hoc Networks,” in IEEE Computer Society, 2010.
Index Terms

Computer Science
Information Sciences

Keywords

Vehicular Ad hoc Networks Road Side Unit carry and forward data dissemination dissemination capacity vehicular density