Fault localization method for low-voltage distribution network based on voltage difference network mapping and posterior probability verification

LI Qingshan; XU Fengqian; LAI Xiuyan; FENG Yang; YI Changchun; GUO Jianfeng

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Fault localization method for low-voltage distribution network based on voltage difference network mapping and posterior probability verification

更新时间：2026-03-30

- Fault localization method for low-voltage distribution network based on voltage difference network mapping and posterior probability verification
- Vol. 63, Issue 3, (2026)
- 作者机构：
  
  1. 浙江省电力有限公司衢州供电公司
  2. 武汉大学电气与自动化学院
- 作者简介：
- 基金信息：
- DOI：
  CLC：
- Published：2026
- 稿件说明：
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LI Qingshan, XU Fengqian, LAI Xiuyan, et al. Fault localization method for low-voltage distribution network based on voltage difference network mapping and posterior probability verification[J]. 2026, 63(3).
DOI：

LI Qingshan, XU Fengqian, LAI Xiuyan, et al. Fault localization method for low-voltage distribution network based on voltage difference network mapping and posterior probability verification[J]. 2026, 63(3). DOI：

摘要

针对低压配电网拓扑复杂而导致故障区段定位精度不高的问题

提出了一种基于电压差网络映射和后验概率校核的故障区段定位方法。首先构造可达矩阵描述配电网拓扑结构

以准确反映网络各节点的连通性;根据故障前后节点电压的变化

计算节点故障电压差并利用K 均值聚类算法对故障电压差进行聚类

得到故障电压差矩阵;通过推导可达矩阵和故障电压差矩阵的关系计算线路区段状态矩阵

最后采用马尔可夫链蒙特卡罗(Markov chain Monte Carlo

MCMC)算法计算各区段故障的后验概率

对所得故障区段判定结果进行校核。多个配电网中算例结果表明

所提方法在不同配电网拓扑结构下的单一故障识别率达100%

在相同条件下相较于传统方法收敛速度提高了40%

显著提高了故障区段定位的准确性和可靠性。

Abstract

Aiming at the problem that the topology of low-voltage distribution network is complex and leads to low fault segment localization accuracy

a fault segment localization method based on voltage difference network mapping and a posterior probability checking is proposed. Firstly

a reachable matrix is constructed to describe the topology of the distribution network to accurately reflect the connectivity of each node of the network; according to the change of the node voltage before and after the fault

the node fault voltage difference is calculated and clustered using the K-mean clustering algorithm to obtain the fault voltage difference matrix; the line segment state matrix is calculated by deducing the relationship between the reachable matrix and the fault voltage difference matrix. Finally

the Markov chain Monte Carlo (MCMC) algorithm is used to calculate the a posterior probability of faults in each segment

and the results of fault segment determination are checked. The results of several examples in distribution network show that the proposed method achieves a single fault recognition rate of 100% under different distribution network topologies. Under the same conditions

compared with the traditional methods

the convergence speed is increased by 40%

significantly improving the accuracy and reliability of fault segment localization.

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