Abstract
Vehicular Ad hoc Networks (VANETs) are becoming a reality where secure communication is a prerequisite. Public key infrastructure (PKI) can be used to secure VANETs where an onboard tamper proof device (TPD) stores a number of encryption keys which are renewed upon visiting a certificate authority (CA). We previously proposed a dynamic key distribution protocol for PKI-based VANETs [1] to reduce the role of the TPD. A vehicle dynamically requests a key from its nearest road side unit. This request is propagated through network infrastructure to reach a CA cloud and a key is securely returned. A proposed key revocation mechanism reduced the number of messages needed for revocation through Certificate Revocation List (CRL) distribution. In this paper, performance evaluation and security of the proposed dynamic key distribution is investigated analytically and through network simulation. Furthermore, extensive analysis is performed to demonstrate how the proposed protocol can dynamically support efficient and cost-reduced key distribution. Analysis and performance evaluation results clearly make the case for dynamic key distribution for PKI-based VANETS.
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