改进了RSA有损陷门函数及其应用

Int. J. Inf. Comput. Secur. Pub Date : 2021-04-21 DOI:10.1504/IJICS.2021.10037247

Nanyuan Cao, Z. Cao, Xiaolei Dong, Haijiang Wang

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引用次数: 0

摘要

Kakvi和Kiltz (EUROCRYPT 12)提出第一个紧安全减少RSA全域散列签名方案(RSA-FDH)与公共指数e < N1/4随机oracle (RO)模型,他们留下了一个开放的问题,呼吁严格安全RSA-FDH N1/4 < e < n在这篇文章中,我们考虑改进RSA (iRSA)活板门功能,引入了曹(科学在中国' 01),功能,安全可以严格证明是相当于保理。我们证明了iRSA- fdh对e < n具有严格的安全性降低，从技术上讲，我们构造了iRSA有损耗的陷阱门函数，然后我们应用iRSA陷阱门函数的损耗性来获得RO模型中iRSA- fdh的严格安全性降低。最后，我们提出了一种基于我们在RO模型中的iRSA有损陷门函数的严密安全盲签名方案。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Improved RSA lossy trapdoor function and applications

Kakvi and Kiltz (EUROCRYPT'12) proposed the first tight security reduction for RSA full domain hash signature scheme (RSA-FDH) with public exponent e < N1/4 in the random oracle (RO) model, and they left an open problem which called for a tightly secure RSA-FDH for N1/4 < e < N. In this paper, we consider the improved RSA (iRSA) trapdoor functions, introduced by Cao (Science in China'01), are functions that the security can be strictly proved to be equivalent to the factoring. We show that iRSA-FDH has a tight security reduction for e < N. Technically we construct iRSA lossy trapdoor functions, and then we apply the lossiness of the iRSA trapdoor functions to obtain tight security reductions for iRSA-FDH in the RO model. Finally, we propose a tightly secure blind signature scheme based on our iRSA lossy trapdoor functions in the RO model.

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Int. J. Inf. Comput. Secur.

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