On Message Dissemiaton and Event Detection in VANET
DOI:
https://doi.org/10.26438/ijcse/v6si3.4245Keywords:
Vehicular ad-hoc networks, message dissemination, event detection, radio propagation model, transmission rangeAbstract
The whole concept of message dissemination in Vehicular Ad hoc Networks relies on the inter-vehicle cooperation. This helpful nature of vehicles has empowered vehicles to gather and trade traffic related messages continuously. In this manner, it is conceivable to utilize Vehicular Ad-hoc Networks for event discovery on urban roadways. Due to the uneven topology of urban roadways comprising of both major and auxiliary roadways, different protocols are designed. These protocols are designed to detect traffic related events on roadways. Some protocols might be efficient for a particular road but may fail for some other types of roads. Besides, the current scattering strategies for occasions related data do not have the essential control system, so the message(information) might be dispersed to different geographical areas. This paper presents the review of existing message dissemination and event detection protocols in VANET. A tabular representation of various protocols of message dissemination and event detection on parameters like radio propagation model, transmission range, standard and simulator have been given. The comparative analysis of these existing protocols is also presented in the same section.
References
E. C. Eze, S. Zhang, and E. Liu, “Vehicular ad hoc networks (VANETs): Current state, challenges, potentials and way forward,” ICAC 2014 - Proc. 20th Int. Conf. Autom. Comput. Futur. Autom. Comput. Manuf., no. September, pp. 176–181, 2014.
S. Zeadally, R. Hunt, Y.-S. Chen, A. Irwin, and A. Hassan, “Vehicular ad hoc networks (VANETS): status, results, and challenges,” Telecommun. Syst., vol. 50, no. 4, pp. 217–241, 2012.
X. Yang, J. Liu, F. Zhao, and N. H. Vaidya, “A Vehicle-to-Vehicle Communication Protocol,” 2004.
L. Briesemeister and H. Gunter, “Role-Based Multicast in Highly Mobile but Sparsely Connected Ad Hoc Networks,” pp. 45–50, 2000.
S. Biswas, R. Tatchikou, and F. Dion, “Vehicle-to-vehicle wireless communication protocols for enhancing highway traffic safety,” IEEE Commun. Mag., vol. 44, no. 1, pp. 74–82, 2006.
T. Fukuhara et al., “Broadcast methods for inter-vehicle communications system,” IEEE Wirel. Commun. Netw. Conf. WCNC, vol. 4, pp. 2252–2257, 2005.
Y. C. Tseng, S. Y. Ni, Y. S. Chen, and J. P. Sheu, “The broadcast storm problem in a mobile ad hoc network,” Wirel. Networks, vol. 8, no. 2–3, pp. 153–167, 2002.
M. Fogue, P. Garrido, F. J. Martinez, J. C. Cano, C. T. Calafate, and P. Manzoni, “Evaluating the impact of a novel message dissemination scheme for vehicular networks using real maps,” Transp. Res. Part C Emerg. Technol., vol. 25, pp. 61–80, 2012.
M. Fogue, P. Garrido, F. J. Martinez, J. C. Cano, C. T. Calafate, and P. Manzoni, “An adaptive system based on roadmap profiling to enhance warning message dissemination in vanets,” IEEE/ACM Trans. Netw., vol. 21, no. 3, pp. 883–895, 2013.
K. Suriyapaibonwattana and C. Pomavalai, “An effective safety alert broadcast algorithm for VANET,” in 2008 International Symposium on Communications and Information Technologies, ISCIT 2008, 2008, pp. 247–250.
K. Suriyapaiboonwattana, C. Pornavalai, and G. Chakraborty, “An adaptive alert message dissemination protocol for VANET to improve road safety,” in IEEE International Conference on Fuzzy Systems, 2009, pp. 1639–1644.
M. Slavik and I. Mahgoub, “Stochastic broadcast for VANET,” in 2010 7th IEEE Consumer Communications and Networking Conference, CCNC 2010, 2010.
Y. Bi, L. X. Cai, X. Shen, and H. Zhao, “A cross layer broadcast protocol for multihop emergency message dissemination in inter-vehicle communication,” in IEEE International Conference on Communications, 2010.
D. Sormani et al., “in Inter-Vehicular Networks,” pp. 20–29, 2006.
J. Sanguesa et al., “On the selection of optimal broadcast schemes in VANETs,” Proc. 16th ACM Int. Conf. Model. Anal. Simul. Wirel. Mob. Syst. - MSWiM ’13, pp. 411–418, 2013.
O. K. Tonguz, N. Wisitpongphan, and F. Bai, “DV-CAST: A distributed vehicular broadcast protocol for vehicular ad hoc networks,” IEEE Wirel. Commun., vol. 17, no. 2, pp. 47–57, 2010.
W. Viriyasitavat, O. K. Tonguz, and F. Bai, “UV-CAST: An urban vehicular broadcast protocol,” IEEE Commun. Mag., vol. 49, no. 11, pp. 116–124, 2011.
J. A. Sanguesa, M. Fogue, P. Garrido, F. J. Martinez, J. Cano, and C. T. Calafate, “Using topology and neighbor information to overcome adverse vehicle density conditions,” Transp. Res. PART C, vol. 42, pp. 1–13, 2014.
C. Barros et al., “Document downloaded from : This paper must be cited as : Additional Information CELLULOSE DERIVATE THERMOREVERSIBLE HYDROGEL FILMS,” vol. 22, pp. 1911–1929, 2015.
A. Hoc, M. Hu, Z. Zhong, M. Ni, and A. Baiocchi, “Design and Analysis of A Beacon-Less Routing Protocol for Large Volume Content Dissemination,” vol. C, 2016.
X. Yang, J. Liu, F. Zhao, and N. H. Vaidya, “A Vehicle-to-Vehicle Communication Protocol for Cooperative Collision Warning,” pp. 1–14.
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