An edge computing method using a novel mode component for power transmission line fault diagnosis in distribution networ
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ORIGINAL RESEARCH
An edge computing method using a novel mode component for power transmission line fault diagnosis in distribution network Mei Wang1 · Wenbin Chai1 · Changfeng Xu2 · Lihong Dong1 · Yuancheng Li1 · Pai Wang1 · Xuebin Qin1 Received: 24 May 2020 / Accepted: 8 August 2020 © Springer-Verlag GmbH Germany, part of Springer Nature 2020
Abstract The commonly used fault diagnosis method of the power transmission line (PTL) is the traveling wave method which uses the traditional mode components 𝛼 , 𝛽 and o to realize the fault type recognizing and the fault location in distribution network. However, the traditional mode components of the traveling wave method may take the value of zero that cannot provide the effective fault feature for the A-phase ground fault, or the A and B double phases short-circuit fault. Moreover, a single traditional mode component cannot recognize all the types of the faults, and the fault recognition has to use the multiple mode components that increases the complexity. To address the aforementioned issues, this paper proposes an edge computing scheme based on a novel mode component 𝛾 for PTL fault diagnosis in distribution network. Firstly, the novel mode component 𝛾 is fused according to the traditional mode components 𝛼 and 𝛽 , then the propagation property of the traveling wave-𝛾 is derived. Secondly, the edge computing scheme and the PTL fault diagnosis method are designed for distribution network by using the only novel mode component 𝛾 . Thirdly, the relationship table of the fault type and the boundary conditions as well as the component 𝛾 expressions is derived for the fault recognition using the only traveling wave-𝛾 . In addition, the fault distance computing is explored by using the traveling wave-𝛾 . The computing is composed with the wave-𝛾 head identification using the optimal Wavelet vanishing moment parameter, and the arrival time determination, and the fault location method. To evaluate the efficiency of the proposed edge computing scheme, the simulation experiment and the laboratory tests are conducted. The simulation experiment results show that, the novel mode component 𝛾 not only provides the effective fault features for all the ten types of the power transmission line faults, but also increases fault locating accuracy by the average 2.08 % compared with the methods using the traditional mode component 𝛼 , 𝛽 and o. Meanwhile, the laboratory tests show that the edge computing method is practical. Keywords Edge computing · Information fusion · Power transmission line · Fault diagnosis · Distribution network
1 Introduction The power transmission lines (PTL) of the distribution network are used globally to transmit the electric energy. As the power load demand is frequently changed, the size of the PTL is frequently changed, which correspondingly increases the complexity of the PTL. So the PTL fault diagnosis, especially the early fault detection, is complex and difficut. It is a significant challenge to diagnose the fault with a higher * Mei Wang wangm@xus
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