Title :
PROPS: A PRivacy-Preserving Location Proof System
Author :
Gambs, SeÌbastien ; Killijian, Marc-Olivier ; Roy, Matthieu ; Traore, Moussa
Author_Institution :
Inria, Univ. de Rennes 1, Rennes, France
Abstract :
A secure location-based service requires that a mobile user certifies his position before gaining access to a resource. Currently, most of the existing solutions addressing this issue assume a trusted third party that can vouch for the position claimed by a user. However, as computation and communication capacities become ubiquitous with the large scale adoption of smartphones by individuals, we propose to leverage on these resources to solve this issue in a collaborative and private manner. More precisely, we introduce PROPS, for PRivacy-preserving lOcation Proof System, which allows users to generate proofs of location in a private and distributed way using neighboring nodes as witnesses. PROPS provides security properties such as unforgeability and non-transferability of the proofs, as well as resistance to classical localization attacks.
Keywords :
data privacy; groupware; mobile computing; theorem proving; user interfaces; PROPS; collaborative manner; mobile user; privacy-preserving location proof system; private manner; secure location-based service; ubiquitous computing; Computer architecture; Cryptography; Global Positioning System; Privacy; Protocols; Testing; collaborative algorithms; distance bounding; location based services; location proof system; privacy;
Conference_Titel :
Reliable Distributed Systems (SRDS), 2014 IEEE 33rd International Symposium on
Conference_Location :
Nara
DOI :
10.1109/SRDS.2014.37
