A Trust Scheme Based on Vehicles Reports of Events in VANETs
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In this paper, we propose a scheme allow vehicles in a Vehicular Ad hoc Network share running information among them. We developed a mechanism that can help a vehicle to judge the trustworthiness of a message. We classify information into two types: one is emergency warning message, and the other is event reporting message. By collecting reports from other vehicles who pass through the place where an event occurs on claimed by a message, a vehicle can make a decision whether the message is true or false by using algorithms proposed in the paper. Simulation experiments show the scheme can work well and efficiently. The scheme can resist certain attacks that are hardly identified by other schemes as it avoids using vehicle’s ID. It can also protect a driver’s privacy in some extent which is a hot issue in recent research.
KeywordsVANETs Reputation Trust mechanism
This work is supported by Jiangsu Overseas Research & Training Program for University Prominent Young &Middle-aged Teachers and Presidents Project, and in part by the Natural Science Foundation of the Jiangsu Higher Education Institutions (15KJB520029) and the Science Foundation of Nantong of Jiangsu Grants (BK2014064). The authors also gratefully acknowledge the helpful comments and suggestions of the reviewers, which have improved the presentation.
- 1.Wikipedia on Road Traffic Safety. http://en.wikipedia.org/wiki/Road-traffic_safety.10/24/2017.
- 2.Wikipedia on Vehicular ad hoc network. https://en.wikipedia.org/wiki/Vehicular_ad_hoc_network.10/24/2017.
- 4.Douceur, J. (2002). The Sybil attack. In Proceedings of the first international workshop on peer-to-peer systems (IPTPS). Google Scholar
- 5.Dellarocas, C. (2000). Immunizing online reputation reporting systems against unfair ratings and discriminatory behavior. In Proceedings of the ACM conference on electronic commerce (EC), (pp. 150–157)Google Scholar
- 6.Zhang, J. (2011) A survey on trust management for VANETs. In: 2011 International conference on advanced information networking and applications (pp.105–112). IEEEGoogle Scholar
- 8.Wei, Y. C., & Chen, Y. M. (2014). Adaptive decision making for improving trust establishment in VANETS. In 16th Asia-Pacific network operation and management symposium (APNOMS) (pp. 1–4)Google Scholar
- 9.Abdelaziz, K. C., Lagraa, N., & Lakas, A. (2014). Trust model with delayed verification for message relay in VANETs. In Wireless communications and mobile computing conference (IWCMC) (pp. 700–705)Google Scholar
- 10.Minhas, U. F., Zhang, J., Tran, T., & Cohen, R. (2010). Towards expanded trust management for agents in vehicular ad-hoc networks. International Journal of Computational Intelligence: Theory and Practice (IJCITP), 5(1), 03–15.Google Scholar
- 11.Raya, M., Papadimitratos, P., Gligor, V. D., & Hubaux, J. P. (2008). On data-centric trust establishment in ephemeral ad hoc networks. In Technical Report, LCS-REPORT-2007-003.Google Scholar
- 12.Dotzer, F., Fischer, L., & Magiera, P. (2005). Vars, a vehicle ad hoc networks reputation system. In Proceedings of the IEEE international symposium on a world of wireless, mobile and multimedia networks.Google Scholar
- 15.Wang, G., & Wu, Y. (2014). BIBRM: A bayesian inference based road message trust model in vehicular ad hoc networks. In 2014 IEEE 13th international conference trust, security and privacy in computing and communications (TrustCom) (pp. 481–486). IEEE.Google Scholar
- 16.Chen, C., Zhang, J., Cohen, R., & Ho, P. H. (2010). A trust-based message propagation and evaluation framework in VANETs. In Proceedings of the international conference on information technology convergence and services Google Scholar
- 17.Koster, A., Tettamanzi, A. G., Bazzan, A., & Pereira, C. D. C. (2013). Using trust and possibilistic reasoning to deal with untrustworthy communication in VANETs. In IEEE-ITS2013 (pp 2355–2360). IEEE.Google Scholar
- 18.Gerlach, M. (2007) Trust for vehicular applications. In 8th International symposium on ISADS’07. Autonomous decentralized systems (pp. 295–304)Google Scholar
- 20.Chunjie, Y., Jinxu, G., & Xinyou, L. (2014). The design and realization of OBU in free-flow ETC system [C]. Applied Mechanics and Materials, 556–562, 2081–2084.Google Scholar
- 21.Azaola M., Moriana C., Navarro P., Valdes D., Bonardi L., Toledo M., & Cosmen J. (2013) Experimental evaluation for road user charging of GPS/GLONASS/MEMS OBU [C]. In 26th international technical meeting of the satellite division of the institute of navigation (Vol. 1, pp. 656–666)Google Scholar
- 22.Sommer, C., Joerer, S., & Dressler, F. (2012). On the applicability of two-ray path loss models for vehicular networks simulation. IEEE Vehicular Networking Conference (VNC), 2012, 64–69.Google Scholar
- 23.Mujcic, R., & Frijters, P. (2011). Altrusim in society: Evidence from a natural experiment involving commuters. IZA Discussion Papers, Technical Report 5648. ftp.iza.org/dp5648.pdf