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    <title>Field lifting for smaller UOV public keys</title>
    <dc:date>2017-08-17T15:24:42+00:00</dc:date>
    <link>https://eprint.iacr.org/2017/776</link>
    <dc:creator>randombit</dc:creator><dc:subject>crypto signatures</dc:subject>
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    <title>Mesh Signatures How to Leak a Secret with Unwitting and Unwilling Participants</title>
    <dc:date>2017-07-26T14:34:58+00:00</dc:date>
    <link>https://eprint.iacr.org/2007/094.pdf</link>
    <dc:creator>randombit</dc:creator><dc:subject>signatures crypto pairings</dc:subject>
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    <title>Short Group Signatures</title>
    <dc:date>2017-01-11T02:01:56+00:00</dc:date>
    <link>http://crypto.stanford.edu/~dabo/papers/groupsigs.pdf</link>
    <dc:creator>randombit</dc:creator><dc:subject>pairings signatures crypto</dc:subject>
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    <title>Arithmetic Coding and Blinding Countermeasures for Lattice Signatures: Engineering a Side-Channel Resistant Post-Quantum Signature Scheme with Compact Signatures</title>
    <dc:date>2016-12-20T23:33:37+00:00</dc:date>
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    <dc:creator>randombit</dc:creator><dc:subject>lattices crypto signatures pqcrypto</dc:subject>
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    <title>TESLA: Tightly-Secure Efficient Signatures from Standard Lattices</title>
    <dc:date>2016-10-24T01:14:25+00:00</dc:date>
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    <dc:creator>randombit</dc:creator><dc:subject>lattices signatures crypto</dc:subject>
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    <title>RSA signature and PSS papers by Bellare and Rogaway</title>
    <dc:date>2013-05-02T11:34:39+00:00</dc:date>
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    <dc:creator>randombit</dc:creator><dc:subject>crypto rsa signatures pss</dc:subject>
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    <title>On the Security of the Winternitz One-Time Signature Scheme</title>
    <dc:date>2011-04-27T23:19:12+00:00</dc:date>
    <link>http://eprint.iacr.org/2011/191</link>
    <dc:creator>randombit</dc:creator><description><![CDATA[We show that the Winternitz one-time signature scheme is existentially unforgeable under adaptive chosen message attacks when instantiated with a family of pseudo random functions. Compared to previous results, which require a collision resistant hash function, our result provides significantly smaller signatures at the same security level. We also consider security in the strong sense and show that the Winternitz one-time signature scheme is strongly unforgeable assuming additional properties of the pseudo random function. In this context we formally define several key-based security notions for function families and investigate their relation to pseudorandomness. All our reductions are exact and in the standard model and can directly be used to estimate the output length of the hash function required to meet a certain security level. ]]></description>
<dc:subject>winternitz hash signatures crypto paper</dc:subject>
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