可证明安全高效的基于多接收方身份的广义签名加密方案

2014 Ninth Asia Joint Conference on Information Security Pub Date : 2014-09-01 DOI:10.1109/AsiaJCIS.2014.10

Cai-xue Zhou

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引用次数: 3

摘要

广义签名加密(GSC)可以自适应地作为只有一个算法和一个密钥对的加密方案、签名方案或签名加密方案工作，非常适合于存储受限的环境，如嵌入式系统、智能卡和无线传感器网络。提出了一种基于多接收方身份的广义签名加密方案(MID-GSC)，给出了该方案的形式化定义和安全概念，并证明了该方案在双线性Diffie-Hellman假设下的保密性和随机oracle模型下计算Diffie-Hellman假设下的存在不可伪造性。通过使用随机重用技术，该方案只需要一次配对计算就可以对n个接收方的单个消息进行签名加密。与传统方法相比，新方案具有较高的效率。

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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Provably Secure and Efficient Multi-receiver Identity-Based Generalized Signcryption Scheme

Generalized signcryption (GSC) can adaptively work as an encryption scheme, a signature scheme or a signcryption scheme with only one algorithm and one key pair, which is very suitable for storage-constrained environments, like the embedded systems, smart cards and wireless sensor networks. In this paper, a multi-receiver identity-based generalized signcryption scheme (MID-GSC) is proposed, the formal definition and security notions are defined, and the concrete scheme is proved to be confidential under the bilinear Diffie-Hellman assumption and existentially unforgeable under the computational Diffie-Hellman assumption in the random oracle model. By using the randomness reuse technique, the scheme only needs one pairing computation to generally sign crypt a single message for n receivers. Compared with the traditional approach, the new scheme is of high efficiency.

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2014 Ninth Asia Joint Conference on Information Security

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