Fully Homomorphic Encryption with Table Lookup for Privacy-Preserving Smart Grid

2019 IEEE International Conference on Smart Computing (SMARTCOMP) Pub Date : 2019-06-01 DOI:10.1109/SMARTCOMP.2019.00023

Ruixiao Li, Yu Ishimaki, H. Yamana

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引用次数: 6

Abstract

Smart grids are indispensable applications in smart connected communities (SCC). To construct privacy-preserving anomaly detection systems on a smart grid, we adopt fully homomorphic encryption (FHE) to protect users' sensitive data. Although FHE allows a third party to perform calculations on encrypted data without decryption, FHE only supports addition and multiplication on encrypted data. In anomaly detection, we must calculate both harmonic and arithmetic means consisting of logarithms. A naïve implementation of such arithmetic operations with FHE is a bitwise operation; thus, it requires huge computation time. To speed up such calculations, we propose an efficient protocol to evaluate any functions with FHE using a lookup table (LUT). Our protocol allows integer encoding, i.e., a set of integers is encrypted as a single ciphertext, rather than using bitwise encoding. Our experimental results in a multi-threaded environment show that the runtime of our protocol is approximately 51 s when the size of the LUT is 448,000. Our protocol is more practical than the previously proposed bitwise implementation.

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隐私保护智能电网的全同态表查找加密

智能电网是智能互联社区不可或缺的应用。为了构建智能电网的隐私保护异常检测系统，我们采用了完全同态加密(FHE)来保护用户的敏感数据。虽然FHE允许第三方在不解密的情况下对加密数据进行计算，但FHE只支持对加密数据进行加法和乘法运算。在异常检测中，必须同时计算谐波平均值和由对数组成的算术平均值。使用FHE实现此类算术运算的naïve是位操作;因此，它需要大量的计算时间。为了加快这种计算速度，我们提出了一个有效的协议，使用查找表(LUT)来评估FHE的任何函数。我们的协议允许整数编码，也就是说，一组整数被加密为单个密文，而不是使用位编码。我们在多线程环境中的实验结果表明，当LUT的大小为448,000时，我们的协议的运行时间约为51秒。我们的协议比以前提出的按位实现更实用。

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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2019 IEEE International Conference on Smart Computing (SMARTCOMP)

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