Enhanced RSA key encryption application for metering data in smart grid

Int. J. Pervasive Comput. Commun. Pub Date : 2021-11-12 DOI:10.1108/ijpcc-07-2021-0172

Anita Philips, J. Jayaraj, T. JoshF., P. Venkateshkumar

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引用次数: 1

Abstract

Purpose Digitizing of the electrical power grid promotes the advantages of efficient energy management alongside the possibilities of major vulnerabilities. A typical inadequacy that needs critical attention to ensure the seamless operation of the smart grid system remains in the data transmission between consumer premises smart devices and the utility centres. Many researches aim at establishing security protocols to ensure secure and efficient energy management resulting in perfect demand–supply balance. Design/methodology/approach In this paper, the authentication of the smart meter data has been proposed with enhanced Rivest–Shamir–Adleman (RSA) key encryption using an efficient way of generating large prime numbers. The trapdoor one-way function applied in the RSA algorithm makes it almost impossible for the reverse engineering attempts of cracking the key pair. Findings The algorithm for generating prime numbers has been tested both with the convention method and with the enhanced method of including a low-level primality test with a first few hundred primes. The combination of low-level and high-level primality tests shows an improvement in execution time of the algorithm. Originality/value There is a considerable improvement in the time complexities when using the combination method. This efficient generation of prime numbers can be successfully applied to the smart meter systems, thereby increasing the strength and speed of the key encryption.

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智能电网计量数据RSA密钥加密增强应用

目的:电网的数字化促进了高效能源管理的优势，同时也带来了重大漏洞的可能性。在消费者住宅智能设备和公用事业中心之间的数据传输中，需要高度关注以确保智能电网系统无缝运行的典型不足。许多研究旨在建立安全协议，以确保安全高效的能源管理，从而实现完美的供需平衡。设计/方法/方法本文提出了一种基于RSA (Rivest-Shamir-Adleman)密钥加密的智能电表数据认证方法，该方法采用一种有效的生成大素数的方法。RSA算法中应用的活门单向函数使得破解密钥对的逆向工程尝试几乎不可能。生成素数的算法已经用常规方法和增强的方法进行了测试，该方法包括使用前几百个素数进行低级素数测试。低级和高级质数测试的结合表明，该算法的执行时间有所改善。原创性/价值使用组合方法时，时间复杂度有相当大的改善。这种高效生成质数的方法可以成功地应用于智能电表系统，从而提高密钥加密的强度和速度。

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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Int. J. Pervasive Comput. Commun.

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