Practical RSA signature scheme based on periodical rekeying for wireless sensor networks

ACM Trans. Sens. Networks Pub Date : 2012-03-01 DOI:10.1145/2140522.2140526

Shih-Ying Chang, Yue-Hsun Lin, Hung-Min Sun, Mu-En Wu

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引用次数: 12

Abstract

Broadcast is an efficient communication channel on wireless sensor networks. Through authentic broadcast, deployed sensors can perform legitimate actions issued by a base station. According to previous literature, a complete solution for authentic broadcast is digital signature based on asymmetric cryptography. However, asymmetric cryptography utilizes expensive operations, which result in computational bottlenecks. Among these cryptosystems, Elliptic Curve Cryptography (ECC) seems to be the most efficient and the most popular choice. Unfortunately, signature verification in ECC is not efficient enough. In this article, we propose an authentic broadcast scheme based on RSA. Unlike conventional approaches, the proposed scheme adopts short moduli to enhance performance. Meanwhile, the weakness of short moduli can be fixed with rekeying strategies. To minimize the rekeying overhead, a Multi-Modulus RSA generation algorithm, which can reduce communication overhead by 50%, is proposed. We implemented the proposed scheme on MICAz. On 512-bit moduli, each verification spends at most 0.077 seconds, which is highly competitive with other public-key cryptosystems.

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基于周期性密钥更新的实用无线传感器网络RSA签名方案

广播是无线传感器网络中一种有效的通信方式。通过真实广播，部署的传感器可以执行基站发出的合法动作。根据以往的文献，一个完整的解决方案是基于非对称密码的数字签名。然而，非对称加密使用昂贵的操作，从而导致计算瓶颈。在这些密码系统中，椭圆曲线密码(ECC)似乎是最有效和最受欢迎的选择。遗憾的是，ECC中的签名验证不够有效。在本文中，我们提出了一个基于RSA的可信广播方案。与传统方法不同，该方案采用短模来提高性能。同时，采用重键策略可以弥补短模的缺点。为了最小化密钥更新开销，提出了一种多模RSA生成算法，该算法可将通信开销降低50%。我们在MICAz上实现了所提出的方案。在512位模上，每次验证最多花费0.077秒，这与其他公钥密码系统相比极具竞争力。

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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ACM Trans. Sens. Networks

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