In an implicit authentication system, a user profile is used as an additional factor to strengthen the authentication of mobile users. The profile consists of features that are constructed using the history of user actions on her mobile device over time. The profile is stored on the server and is used to authenticate an access request originated from the device at a later time. An access request will include a vector of recent measurements of the features on the device, that will be subsequently matched against the features stored at the server, to accept or reject the request. The features however include private information such as user location or web sites that have been visited. We propose a privacypreserving implicit authentication system that achieves implicit authentication without revealing information about the usage profiles of the users to the server. We propose an architecture, give a formal security model and a construction with provable security in two settings where: (i) the device follows the protocol, and (ii) the device is captured and behaves maliciously.
Abstract. In an implicit authentication system, a user profile is used as an additional factor to strengthen the authentication of mobile users. The profile consists of features that are constructed using the history of user actions on her mobile device over time. The profile is stored on the server and is used to authenticate an access request originated from the device at a later time. An access request will include a vector of recent measurements of the features on the device, that will be subsequently matched against the features stored at the server, to accept or reject the request. The features however include private information such as user location or web sites that have been visited. We propose a privacy-preserving implicit authentication system that achieves implicit authentication without revealing information about the usage profiles of the users to the server. We propose an architecture, give a formal security model and a construction with provable security in two settings where: (i) the device follows the protocol, and (ii) the device is captured and behaves maliciously.
We consider secure positioning in wireless environments where mobile nodes use a trusted infrastructure to prove their location: a node claims a position and wants to prove to the verification infrastructure that it is actually located in that position. We propose a system that uses the notion of dynamic verifiers and provides security against collusion attack in which the adversary corrupts a set of nodes and its aim is to claim a position where none of the corrupted nodes are located. We give a detailed analysis of the system and show that under reasonable assumptions the protocol will reject false claims and the success probability of the adversary can be made arbitrarily small. We also give the results of our simulation that closely match the analysis. Our protocol is the first secure positioning protocol with security against collusion attack.
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