Identity-based cryptosystems and signature schemes
Proceedings of CRYPTO 84 on Advances in cryptology
Cellular IP: a new approach to Internet host mobility
ACM SIGCOMM Computer Communication Review
HAWAII: a domain-based approach for supporting mobility in wide-area wireless networks
IEEE/ACM Transactions on Networking (TON)
Identity-Based Encryption from the Weil Pairing
SIAM Journal on Computing
A Secure Routing Protocol for Ad Hoc Networks
ICNP '02 Proceedings of the 10th IEEE International Conference on Network Protocols
Wireless mesh networks: a survey
Computer Networks and ISDN Systems
Routing protocols in wireless mesh networks: challenges and design considerations
Multimedia Tools and Applications
A secure intra-domain routing protocol for wireless mesh networks
ICISS'07 Proceedings of the 3rd international conference on Information systems security
Securing wireless mesh networks
IEEE Wireless Communications
Emerging standards for wireless mesh technology
IEEE Wireless Communications
Enabling inter-PMIPv6-domain handover with traffic distributors
Journal of Network and Computer Applications
Wireless telemedicine and m-health: technologies, applications and research issues
International Journal of Sensor Networks
A survey of security visualization for computer network logs
Security and Communication Networks
Security and Communication Networks
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Secure and pervasive internet access is the goal of present research in wireless networks realm. Wireless Mesh Network (WMN) is expected to be the most widely used network in the near future to make the anywhere-anytime internet access into reality. Though past research on WMN gives solutions on routing and mobility management separately, a complete solution is still lacking. This paper proposes a novel framework for secure, efficient and fast handoff that meets the low handoff latency requirements along with a mechanism to maintain correct billing. This framework encompasses: key management; a secure intra-domain mesh routing protocol; secure inter-agent mesh routing protocol; a micro-mobility handoff mechanism; a macro-mobility handoff mechanism with a secure billing system. Simulation studies using OPNET 14.0 and the performance analysis show that the proposed framework meets the low handoff latency requirements without compromising security.