Malfunction diagnosis of main station of power metering system using LSTM-ResNet with SMOTE method

IF 0.5 Q4 ENGINEERING, MULTIDISCIPLINARY

Journal of Computational Methods in Sciences and Engineering Pub Date : 2023-05-31 DOI:10.3233/jcm-226883

Qianqian Cai, Yong Sun, Youpeng Huang, Jingming Zhao, Jingru Li, Shiqi Yi

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引用次数: 0

Abstract

The power metering system is an important part of the smart grid for data acquisition and analysis. The fault state of the main station directly affects the stable and safe operation of the power metering system. Hinged on the real-world data supplied by the monitoring platform of the Metrology Center of Guangdong Power Grid Co., Ltd., we present a novel malfunction diagnosis method for the main station of the power metering system. The proposed method utilizes the synthetic mi-nority over-sampling technique (SMOTE) and designs a combined model of long short-term memory (LSTM) network and ResNet. SMOTE solves the sample imbalance problem. Furthermore, the combined LSTM-ResNet model employs LSTM to extract the time-dependent signal feature and exploits ResNet to optimize data flow. Consequently, the proposed LSTM-ResNet model improves training efficiency and malfunction diagnosis accuracy. The proposed diagnosis mthod is verifird on the real-world data, which proves the proposed method’s surpass traditional methods. A specific analysis of results and the practical application of the proposed method is also elaborated.

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基于SMOTE方法的LSTM-ResNet电力计量系统主站故障诊断

电力计量系统是智能电网数据采集和分析的重要组成部分。主站的故障状态直接影响到电力计量系统的稳定、安全运行。结合广东电网计量中心监测平台提供的实际数据，提出了一种新的电力计量系统主站故障诊断方法。该方法利用合成极小过采样技术(SMOTE)，设计了一个长短期记忆(LSTM)网络和ResNet网络的组合模型。SMOTE解决了样品不平衡问题。结合LSTM-ResNet模型，利用LSTM提取信号时变特征，并利用ResNet优化数据流。因此，LSTM-ResNet模型提高了训练效率和故障诊断准确率。在实际数据上对所提出的诊断方法进行了验证，证明了该方法优于传统方法。最后对结果进行了具体分析，并阐述了该方法的实际应用。

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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来源期刊

Journal of Computational Methods in Sciences and Engineering ENGINEERING, MULTIDISCIPLINARY-

CiteScore

0.80

自引率

0.00%

发文量

152

期刊介绍： The major goal of the Journal of Computational Methods in Sciences and Engineering (JCMSE) is the publication of new research results on computational methods in sciences and engineering. Common experience had taught us that computational methods originally developed in a given basic science, e.g. physics, can be of paramount importance to other neighboring sciences, e.g. chemistry, as well as to engineering or technology and, in turn, to society as a whole. This undoubtedly beneficial practice of interdisciplinary interactions will be continuously and systematically encouraged by the JCMSE.