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Energy is a central concern in the deployment of wireless sensor networks. In this paper, we investigate the energy cost of cryptographic protocols, both from a communication and a computation point of view, based on practical measurements on the MICAz and TelosB sensors. We focus on the cost of two key agreement protocols: Kerberos and the elliptic curve Diffie-Hellman key exchange with authentication provided by the elliptic curve digital signature algorithm (ECDH-ECDSA). We find that, in our context, Kerberos is around one order of magnitude less costly than the ECDH-ECDSA key exchange and confirm that it should be preferred in situations where a trusted third party is available. We also observe that the power dedicated to communications can become a central concern when the nodes need to stay in listen mode, e.g. between the protocol rounds, even when reduced using a low power listening (LPL) protocol. Therefore, listening should be considered when assessing the cost of cryptographic protocols on sensor nodes.
Meulenaer et al. (Wed,) studied this question.
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