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2023-01-05
Jiang, Xiping, Wang, Qian, Du, Mingming, Ding, Yilin, Hao, Jian, Li, Ying, Liu, Qingsong.  2022.  Research on GIS Isolating Switch Mechanical Fault Diagnosis based on Cross-Validation Parameter Optimization Support Vector Machine. 2022 IEEE International Conference on High Voltage Engineering and Applications (ICHVE). :1—4.
GIS equipment is an important component of power system, and mechanical failure often occurs in the process of equipment operation. In order to realize GIS equipment mechanical fault intelligent detection, this paper presents a mechanical fault diagnosis model for GIS equipment based on cross-validation parameter optimization support vector machine (CV-SVM). Firstly, vibration experiment of isolating switch was carried out based on true 110 kV GIS vibration simulation experiment platform. Vibration signals were sampled under three conditions: normal, plum finger angle change fault, plum finger abrasion fault. Then, the c and G parameters of SVM are optimized by cross validation method and grid search method. A CV-SVM model for mechanical fault diagnosis was established. Finally, training and verification are carried out by using the training set and test set models in different states. The results show that the optimization of cross-validation parameters can effectively improve the accuracy of SVM classification model. It can realize the accurate identification of GIS equipment mechanical fault. This method has higher diagnostic efficiency and performance stability than traditional machine learning. This study can provide reference for on-line monitoring and intelligent fault diagnosis analysis of GIS equipment mechanical vibration.
2018-02-15
Silva, P. R. N., Carvalho, A. P., Gabbar, H. A., Vieira, P., Costa, C. T..  2017.  Fault Diagnosis in Transmission Lines Based on Leakage Current and Qualitative Trend Analysis. 2017 International Conference on Promising Electronic Technologies (ICPET). :87–92.

Transmission lines' monitoring systems produce a large amount of data that hinders faults diagnosis. For this reason, approaches that can acquire and automatically interpret the information coming from lines' monitoring are needed. Furthermore, human errors stemming from operator dependent real-time decision need to be reduced. In this paper a multiple faults diagnosis method to determine transmission lines' operating conditions is proposed. Different scenarios, including insulator chains contamination with different types and concentrations of pollutants were modeled by equivalents circuits. Their performance were characterized by leakage current (LC) measurements and related to specific fault modes. Features extraction's algorithm relying on the difference between normal and faulty conditions were used to define qualitative trends for the diagnosis of various fault modes.