Location Verification for VANETs Routing

Inter-vehicle communication among great deals of vehicles plays an important role in providing a high level of safety and convenience to drivers. Geographic routing protocol has been identified to be suited as a result of the special nature of vehicular ad hoc networks (VANETs), such as high dynamic mobility and large network size. Although there is considerable functional research about geographic routing, the security aspects have not been vastly concentrated on so far. While selecting every hop, the performance and security can be impacted severely by false position, because of the position information importance for geographic routing. Through taking advantages of directional antennas, we propose a novel detection mechanism capable of recognizing nodes faking about their positions in beacon message. By checking through which antenna (f-antenna or b-antenna) beacons are received, ones' neighborhood can be easily divided into two groups. In addition, compared with the detection rules, a node can efficiently detect the malicious nodes after exchanging neighbors grouping information with other vehicles. As the evaluation based on simulations shows, our position verification system can detect malicious nodes successfully and can prevent attacks on geographic routing by false position.

[1]  Qing Yang,et al.  GPSFR: GPS-Free Geographic Routing Protocol for Intelligent Vehicles , 2006, 2006 First International Conference on Communications and Networking in China.

[2]  Tim Leinmüller,et al.  Improved security in geographic ad hoc routing through autonomous position verification , 2006, VANET '06.

[3]  Christian Bonnet,et al.  VanetMobiSim: generating realistic mobility patterns for VANETs , 2006, VANET '06.

[4]  David A. Wagner,et al.  Secure verification of location claims , 2003, WiSe '03.

[5]  Diana K. Smetters,et al.  Talking to Strangers: Authentication in Ad-Hoc Wireless Networks , 2002, NDSS.

[6]  Srdjan Capkun,et al.  SECTOR: secure tracking of node encounters in multi-hop wireless networks , 2003, SASN '03.

[7]  Ram Ramanathan,et al.  On the performance of ad hoc networks with beamforming antennas , 2001, MobiHoc '01.

[8]  Alvin S. Lim,et al.  ACAR: Adaptive Connectivity Aware Routing Protocol for Vehicular Ad Hoc Networks , 2008, 2008 Proceedings of 17th International Conference on Computer Communications and Networks.

[9]  Mikhail Nesterenko,et al.  Secure Location Verification Using Radio Broadcast , 2004, IEEE Transactions on Dependable and Secure Computing.

[10]  Srdjan Capkun,et al.  The security and privacy of smart vehicles , 2004, IEEE Security & Privacy Magazine.

[11]  Brad Karp,et al.  GPSR : Greedy Perimeter Stateless Routing for Wireless , 2000, MobiCom 2000.

[12]  Tim Leinmüller,et al.  Influence of falsified position data on geographic ad-hoc routing , 2005 .

[13]  Alvin S. Lim,et al.  Connectivity Aware Routing in Vehicular Networks , 2008, 2008 IEEE Wireless Communications and Networking Conference.