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Security analysis of an identity-based strongly unforgeable signature scheme

Published: 01 December 2014 Publication History

Abstract

Identity-based signature (IBS) is a specific type of public-key signature (PKS) where any identity string ID can be used for the public key of a user. Although an IBS scheme can be constructed from any PKS scheme by using the certificate paradigm, it is still important to construct an efficient IBS scheme with short signature under the standard assumption without relying on random oracles. Recently, Kwon proposed an IBS scheme and claimed its strong unforgeability under the computational Diffie-Hellman (CDH) assumption. In this paper, we show that the security proof of Kwon is seriously flawed. To show the flaws, we first show that there exists a distinguisher that can distinguish the distribution of simulated signatures from that of real signatures. Next, we also show that the simulator of Kwon's security argument cannot extract the solution of the CDH problem even if there exists an adversary that forges the signature. Therefore, the security of the Kwon's IBS scheme is not related to the hardness of the CDH assumption.

References

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  1. Security analysis of an identity-based strongly unforgeable signature scheme

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    Published In

    cover image Information Sciences: an International Journal
    Information Sciences: an International Journal  Volume 286, Issue
    December, 2014
    246 pages

    Publisher

    Elsevier Science Inc.

    United States

    Publication History

    Published: 01 December 2014

    Author Tags

    1. Bilinear map
    2. Cryptography
    3. Identity-based signature
    4. Security analysis
    5. Strongly unforgeability

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