• DocumentCode
    181934
  • Title

    Privacy-by-Decoy: Protecting location privacy against collusion and deanonymization in vehicular location based services

  • Author

    Corser, George ; Huirong Fu ; Tao Shu ; D´Errico, Patrick ; Ma, Wann-Jiun ; Supeng Leng ; Ye Zhu

  • Author_Institution
    Oakland Univ., Rochester, MI, USA
  • fYear
    2014
  • fDate
    8-11 June 2014
  • Firstpage
    1030
  • Lastpage
    1036
  • Abstract
    Wireless networks which would connect vehicles via the Internet to a location based service, LBS, also would expose vehicles to online surveillance. In circumstances when spatial cloaking is not effective, such as when continuous precise location is required, LBSs may be designed so that users relay dummy queries through other vehicles to camouflage true locations. This paper introduces PARROTS, Position Altered Requests Relayed Over Time and Space, a privacy protocol which protects LBS users´ location information from LBS administrators even (1) when the LBS requires continuous precise location data in a vehicular ad hoc network, (2) when LBS administrators collude with administrators of vehicular wireless access points (a.k.a. roadside units, or RSUs), and (3) when precise location data might be deanonymized using map databases linking vehicle positions with vehicle owners´ home/work addresses and geographic coordinates. Defense against deanonymization requires concealment of endpoints, the effectiveness of which depends on the density of LBS users and the endpoint protection zone size. Simulations using realistic vehicle traffic mobility models varying endpoint protection zone sizes measure improvements in privacy protection.
  • Keywords
    data privacy; radio access networks; telecommunication security; vehicular ad hoc networks; Internet; LBSs; PARROTS; VANET; dummy queries; endpoint concealment; endpoint protection zone size; location data deanonymization; location privacy protection; map databases; online surveillance; position altered requests relayed over time and space; privacy protocol; privacy-by-decoy; vehicle traffic mobility models; vehicular ad hoc network; vehicular location based services; vehicular wireless access points; wireless networks; Computational modeling; Cryptography; Mathematical model; Measurement; Privacy; Surveillance; Vehicles;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Intelligent Vehicles Symposium Proceedings, 2014 IEEE
  • Conference_Location
    Dearborn, MI
  • Type

    conf

  • DOI
    10.1109/IVS.2014.6856595
  • Filename
    6856595