A multi-stage methodology for fault location in radial distribution systems

A. Pessoa, M. Oleskovicz, P. E. T. Martins
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引用次数: 4

Abstract

In the context of smart grids and microgrids, fault location is an important point that can be explored with all the possibilities of this new paradigm. This study presents a multi-stage methodology that involves decision trees as well as artificial neural networks for fault location purposes. Another aspect to be considered is the use of an allocation of smart meters in the distribution system for the tests. The IEEE 34-bus distribution system was used to validate the methodology. This system was chosen due to its considerable number of monophasic branches and its extension. The focus of this paper is the multiple estimation problem, in which, for a same distance of the fault, there is more than one possibility to locate it. Confusion matrices were used to explore the results and show the performance of the proposed algorithm.
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径向配电系统故障定位的多阶段方法
在智能电网和微电网的背景下,故障定位是一个重要的点,可以用这种新范式的所有可能性来探索。本研究提出了一种多阶段的方法,包括决策树和人工神经网络的故障定位目的。另一个需要考虑的方面是在配电系统中分配智能电表进行测试。采用IEEE 34总线分配系统验证了该方法。选择这个系统是因为它有相当多的单相分支和它的延伸性。本文研究的重点是多重估计问题,即对于同一距离的故障,存在不止一种定位的可能性。使用混淆矩阵来探索结果并显示所提出算法的性能。
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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