Data & Knowledge Engineering
An efficient session key generation for NTDR networks based on bilinear paring
Computer Communications
Determining the Failure Level for Risk Analysis in an e-Commerce Interaction
Advances in Web Semantics I
PET'07 Proceedings of the 7th international conference on Privacy enhancing technologies
Pairing-Based Onion Routing with Improved Forward Secrecy
ACM Transactions on Information and System Security (TISSEC)
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As ad hoc wireless networks require less or no fixed infrastructure support, communications among nodes can be quickly and adaptively constructed. This property ensures that ad hoc wireless networks are especially suitable for communications in critical application such as military, emergency and rescue missions. In this paper, we design and evaluate a security framework for multilevel ad hoc wireless networks with unmanned aerial vehicles. Our design, based on identity-based public key infrastructure using bilinear pairing, consists of group key management architecture, static pair-wise communication, tripartite key agreement, and group key agreement. Compared to its counterparts, our design reduces the certificate validation process, improves computational efficiency and reduces storage requirement.