Title :
Multi-channel protocols for group key agreement in arbitrary topologies
Author :
Wong, Ford-Long ; Stajano, Frank
Author_Institution :
Comput. Lab., Cambridge Univ.
Abstract :
We consider group key agreement (GKA) protocols, used by a group of peers to establish a shared secret key for multicast communications. There has been much previous work to improve the security, efficiency and scalability of such protocols. In our work, we describe secure schemes which utilize auxiliary channels in addition to that afforded by the open medium of radio. Such channels are often present in a human-centric pervasive ad-hoc networking scenario, though often neglected. We show that auxiliary channels can reduce public-key operations, reduce computational complexity, and strengthen security against an active adversary on the open channel, and against an eavesdropper on the auxiliary channels. Group key agreement protocols are usually often contextualized by their topology. We applied multi-channel schemes to different topologies, and found that the ideal topology may be different for different channels
Keywords :
cryptography; multicast communication; protocols; telecommunication network topology; telecommunication security; arbitrary topology; auxiliary channel; computational complexity; group key agreement protocol; multicast communication; multichannel protocol; open channel; pervasive ad hoc networking; protocol efficiency; protocol scalability; protocol security; public key operation; secure multichannel scheme; shared secret key; DH-HEMTs; Humans; Laboratories; Multicast communication; Multicast protocols; Peer to peer computing; Pervasive computing; Public key; Scalability; Topology;
Conference_Titel :
Pervasive Computing and Communications Workshops, 2006. PerCom Workshops 2006. Fourth Annual IEEE International Conference on
Conference_Location :
Pisa
Print_ISBN :
0-7695-2520-2
DOI :
10.1109/PERCOMW.2006.98
