M. Jakobsson and D. Pointcheval, "Mutual Authentication for Low-Power Mobile Devices," Proc. Financial Cryptography, pp. 178195, Feb. 2001.  Home/Search   Document Details and Download   Summary   Related Articles   Check

....a formal treatment of the authenticated DiOEe Hellman key exchange problem in the multi party setting. Indeed, we presented in [11] the rst formal model for this problem for a scenario in which the membership is static. The model was derived from Bellare et al. s model of distributed computing [5,18]. Addressed in detail were the AKE and MA goals. For each we presented a denition, a protocol and a proof that the protocol achieves these goals. 2 The Model In this section we formalize the group DiOEe Hellman key exchange and the adversary s capabilities. In our formalization, the players do ....

Jakobsson, M., Pointcheval, D.: Mutual authentication for low-power mobile devices. In Proc. of Financial Crypto '01 (February 2001) LNCSSpringer-Verlag, Berlin.

....only standard widely available cryptographic primitives should be used: encryption, decryption and signing. Recent research in security protocol design has addressed these issues. Protocols specifically designed for low power wireless devices have been proposed, for example, in [WC01a, WC01b, JP01] The protocol in [JP01] has, however, been found flawed in [WC01a] An interesting protocol meeting our criteria isdescribedin[WC01b] The same authors propose a more scalable protocol in [WC01a] this latter, however, does not meet our requirements as it involves the use of public key ....

....available cryptographic primitives should be used: encryption, decryption and signing. Recent research in security protocol design has addressed these issues. Protocols specifically designed for low power wireless devices have been proposed, for example, in [WC01a, WC01b, JP01] The protocol in [JP01] has, however, been found flawed in [WC01a] An interesting protocol meeting our criteria isdescribedin[WC01b] The same authors propose a more scalable protocol in [WC01a] this latter, however, does not meet our requirements as it involves the use of public key encryption on a low power device. ....

Markus Jakobsson and David Pointcheval. Mutual authentication for low-power mobile devices. In Proceedings of Financial Cryptography 2001, volume 2339 of LNCS. Springer-Verlag, 2001. 18

....a formal treatment of the authenticated Diffie Hellman key exchange problem in the multi party setting. Indeed, we presented in [10] the first formal model for this problem for a scenario in which the membership is static. The model was derived from Bellare et al. s model of distributed computing [5, 17]. Addressed in detail were the AKE and MA goals. For each we presented a definition, a protocol and a proof that the protocol achieves these goals. 3 2 The Model In this section we formalize the group Diffie Hellman key exchange and the adversary s capabilities. In our formalization, the ....

M. Jakobsson and D. Pointcheval. Mutual Authentication for Low-Power Mobile Devices. In Proc. of Financial Cryptography '

....models. The problem of modifying public key schemes to run on low power computing devices has rst received attention in the context of signature schemes [11, 17, 19] and has later spread to the task of having a low power mobile client device exchanges a session key with a powerful server [15, 21, 22]. 2 Model In this section we recall the formal model for security against dictionary attacks where the adversary s capabilities are modeled through queries. In this model, the players do not deviate from the protocol and the adversary is not a player, but does control all the network ....

M. Jakobsson and D. Pointcheval. Mutual Authentication for Low-Power Mobile Devices. In Financial Cryptography '01, LNCS 2339, pages 178-195. Springer-Verlag, Berlin, 2001. 14

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M. Jakobsson and D. Pointcheval, "Mutual Authentication for Low-Power Mobile Devices," Proc. Financial Cryptography, pp. 178195, Feb. 2001.

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M. Jakobsson and D. Pointcheval, "Mutual authentication for low-power mobile devices," in Proc. Financial Cryptography, pp. 178--195, Feb. 2001.

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M. Jakobsson and D. Pointcheval. Mutual authentication for low-power mobile devices. In Proceedings of Financial Cryptography 2001.

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M. Jakobsson and D. Pointcheval, Mutual authentication for low-power mobile devices , in Proc. Financial Cryptography, pp. 178195, Feb. 2001.

No context found.

Markus Jakobsson and David Pointcheval. Mutual authentication for low-power mobile devices. In Financial Cryptography---FC 2001, volume 2339 of Lecture Notes in Computer Science, pages 178--195. Springer-Verlag, 2001.

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M. Jakobsson and D. Pointcheval. Mutual Authentication for Low-Power Mobile Devices. In Financial Crypto '01, LNCS 2339, pp. 178--195. Springer, 2001. [3, 10]

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M. Jakobsson and D. Pointcheval. Mutual authentication for low-power mobile devices. In Proceedings of Financial Cryptography 2001.

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