Global-Binary Algorithm; New Optimal Phasor Measurement Unit Placement Algorithm

Jordan Journal of Energy Pub Date : 2022-09-06 DOI:10.35682/jje.v1i1.4

Mohammad Al-Momani, Amneh A. Almbaideen, Seba Al-Gharaibah, K. Al-Awasa, Allahham Ahmed

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引用次数: 2

Abstract

This paper proposes a new algorithm for the optimal placement of the phasor measurement unit. The proposed algorithm is based on the concept of finite space solution of any binary problem. This algorithm has considered all possible cases; therefore, the possibility of obtaining a global solution is very high. The large system is divided into several subsystems. The buses (transmission lines) connected between the subsystems are called interconnected buses (lines). The proposed algorithm is implemented through two steps. First step identifies the optimal placement for each subsystem by checking on all possible solutions, the overall optimal placement for the entire system is gathered in the second step. Finally, all possible placements of the phasor measuring units with the optimal numbers are identified to select the best placement based on the user applications. In this work, the Jordanian power system is considered as a case study to validate the proposed algorithm. Four algorithms in the literature are used for the comparison using different IEEE test systems. The algorithm is computed in MATLAB 2020a.

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Global-Binary算法;新的最优相量测量单元放置算法

本文提出了一种新的相量测量单元优化配置算法。该算法基于任意二元问题的有限空间解的概念。该算法考虑了所有可能的情况;因此，获得全局解的可能性非常高。这个大系统分为几个子系统。子系统之间连接的总线(传输线)称为互联总线(线)。该算法分两步实现。第一步通过检查所有可能的解决方案来确定每个子系统的最优布局，第二步收集整个系统的总体最优布局。最后，识别具有最佳数量的相量测量单元的所有可能放置位置，以根据用户应用选择最佳放置位置。在这项工作中，约旦电力系统被视为一个案例研究，以验证所提出的算法。在不同的IEEE测试系统中，使用了文献中的四种算法进行比较。该算法在MATLAB 2020a中进行了计算。

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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Jordan Journal of Energy

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