Title :
Distance-Bounding Based Defense Against Relay Attacks in Wireless Networks
Author :
Tang, Caimu ; Wu, Dapeng Oliver
Author_Institution :
Tut Syst., Lake Oswego
fDate :
11/1/2007 12:00:00 AM
Abstract :
In this paper, a non-interactive zero-knowledge proof scheme is proposed for secure identification in wireless networks, and it uses a timed oblivious transfer technique to enable a single verifier to identify multiple provers. The verifier and the prover do not need to be synchronized in this scheme. This scheme also enjoys the distance-bounding property which makes the proposed scheme invulnerable to the relay attack. We propose to use the order statistic for the detection of relay attackers. We show that it is optimal in terms of minimum variance. Finally, we shed some light on implementation issues of our proposed scheme.
Keywords :
cryptography; radio networks; statistical analysis; distance-bounding property; elliptic-curve cryptosystem; noninteractive zero-knowledge proof scheme; order statistics; protocol invulnerable; relay attacks; secure identification; timed oblivious transfer technique; wireless networks; Communication system control; Digital relays; Magnetic materials; Protective relaying; Protocols; Public key; Radiofrequency identification; Statistics; Switches; Wireless networks;
Journal_Title :
Wireless Communications, IEEE Transactions on
DOI :
10.1109/TWC.2007.060183
