Partial Discharge Pattern Recognition in GIS Based on Multiscale Dispersion Entropy and Stacking Ensemble Learning

Jingjie Yang, Xiang Zheng
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Abstract

Partial discharge (PD) monitor in gas-insulated switchgear (GIS) is an important means to detect insulation defects of equipment. To solve the problem that the traditional PD extraction features are not obvious and recognition precision is limited. The paper presents a new pattern recognition algorithm by combining the multiscale dispersion entropy (MDE), locally linear embedding (LLE), and stacking ensemble learning, to effectively refine the recognition correct rate of PD types. First, the MDE values of PD signal were calculated as the feature value. Then, use LLE to reduce dimensions to refine the speed and precision of model recognition. Finally, use stacking ensemble learning to train and recognize the feature values after dimension reduction. Among them, K-nearest neighbor, random forest and Gaussian Bayes were selected for the first layer learners, and logical regression model was selected for the second layer learner. The validation results indicated that the recognition correct rate of the proposed algorithm for four typical PD types in GIS was more than 98%, and it has a strong anti-interference ability, which is significantly better than the traditional feature extraction methods.
基于多尺度色散熵和叠加集成学习的GIS局部放电模式识别
气体绝缘开关柜局部放电监测是检测设备绝缘缺陷的重要手段。为了解决传统PD提取特征不明显、识别精度有限的问题。本文提出了一种结合多尺度色散熵(MDE)、局部线性嵌入(LLE)和叠加集成学习的模式识别算法,有效地提高了PD类型的识别正确率。首先,计算PD信号的MDE值作为特征值;然后,利用LLE降维来提高模型识别的速度和精度。最后,利用叠加集成学习对降维后的特征值进行训练和识别。其中,第一层学习器选择k近邻、随机森林和高斯贝叶斯,第二层学习器选择逻辑回归模型。验证结果表明,本文算法对GIS中4种典型PD类型的识别正确率均在98%以上,且具有较强的抗干扰能力,显著优于传统的特征提取方法。
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