The Scalable Group Testing of Invalid Signatures based on Latin Square in Wireless Sensors Networks

2021 6th International Conference on Intelligent Computing and Signal Processing (ICSP) Pub Date : 2021-04-09 DOI:10.1109/ICSP51882.2021.9408780

Hong Wang, Xiangyang Liu, Yunhong Xie, Han Zeng

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Abstract

Digital signature is more appropriate for message security in Wireless Sensors Networks (WSNs), which is energy-limited, than costly encryption. However, it meets with difficulty of verification when a large amount of message-signature pairs swarm into the central node in WSNs. In this paper, a scalable group testing algorithm based on Latin square (SGTLS) is proposed, which focus on both batch verification of signatures and invalid signature identification. To address the problem of long time-delay during individual verification, we adapt aggregate signature for batch verification so as to judge whether there are any invalid signatures among the collection of signatures once. In particular, when batch verification fails, an invalid signature identification algorithm is presented based on scalable OR-checking matrix of Latin square, which can adjust the number of group testing by itself with the variation of invalid signatures. Comprehensive analyses show that SGTLS has more advantages, such as scalability, suitability for parallel computing and flexible design (Latin square is popular), than other algorithm.

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基于拉丁方的无线传感器网络中无效签名的可扩展群测试

在能量有限的无线传感器网络(WSNs)中，数字签名比昂贵的加密更适合于消息安全。然而，当大量的消息签名对涌向无线传感器网络的中心节点时，会遇到验证困难。本文提出了一种基于拉丁方的可扩展群测试算法(SGTLS)，该算法既关注签名的批量验证，又关注无效签名的识别。为了解决单个验证时的时间延迟问题，我们采用聚合签名进行批量验证，以判断一次签名集合中是否存在无效签名。特别是在批量验证失败的情况下，提出了一种基于可扩展拉丁方or检查矩阵的无效签名识别算法，该算法可以根据无效签名的变化自行调整组测试的个数。综合分析表明，与其他算法相比，SGTLS具有可扩展性、适合并行计算和设计灵活(拉丁平方比较流行)等优点。

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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2021 6th International Conference on Intelligent Computing and Signal Processing (ICSP)

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