Author_Institution :
Sch. of Comput. & Inf., Hefei Univ. of Technol., Hefei, China
Abstract :
Existing location privacy-preserving methods, without a trusted third party, cannot resist conspiracy attacks and active attacks. This paper proposes a novel solution for location based service (LBS) in vehicular ad hoc network (VANET). Firstly, the relationship among anonymity degree, expected company area and vehicle density is discussed. Then, a companion set V is set up by k neighbor vehicles. Based on secure multi-party computation, each vehicle in V can compute the centroid, not revealing its location to each other. The centroid as a cloaking location is sent to LBS provider (P) and P returns a point of interest (POI). Due to a distributed secret sharing structure, P cannot obtain the positions of non-complicity vehicles by colluding with multiple internal vehicles. To detect fake data from dishonest vehicles, zero knowledge proof is adopted. Comparing with other related methods, our solution can resist passive and active attacks from internal and external nodes. It provides strong privacy protection for LBS in VANET.
Keywords :
cryptography; data privacy; mobile computing; telecommunication security; vehicular ad hoc networks; LBS provider; VANET; active attack resistance; anonymity degree; distributed secret sharing structure; expected company area; fake data detection; k neighbor vehicles; location based service; location privacy preserving solution; passive attack resistance; point-of-interest; secure multiparty computation; trusted third party; vehicle density; vehicular ad hoc network; zero knowledge proof; Intelligent vehicles; Mobile radio mobility management; Network security; Protocols; Spatial databases; Vehicular ad hoc networks; location based services; location k-anonymity; secure multi-party computation; vehicular ad hoc network;
