Accurate Hydrophobicity Grade Detection of Polymeric Insulators in Extremely Wetted and Humid Environments Using Bi-LSTM Neural Network Classifier

2022 IEEE Power & Energy Society General Meeting (PESGM) Pub Date : 2022-07-17 DOI:10.1109/PESGM48719.2022.9916958

Sayanjit Singha Roy, A. Paramane, Jiwanjot Singh, S. Chatterjee

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Abstract

An accurate detection of hydrophobicity grade (HG) is essential for reliable condition monitoring of polymeric outdoor insulators in wetted and humid environments and for increasing their service life as well. With the above context, this paper proposes a novel HG detection methodology by incorporating a local binary pattern texture feature infused with bi-directional long short-term memory (bi-LSTM) neural network classifier. Different experiments were carried out on 11 kV silicone rubber (SiR) polymeric insulators to emulate various hydrophobic conditions, and the images of the water droplets on the insulator surface were captured. After that, texture features were extracted from the images using a suitable pre-processing of the acquired images and the LBP technique. The extracted features were subsequently fed to a bi-LSTM classifier for HG classification, which returned high recognition accuracies in classifying different hydrophobicity grades. The proposed HG detection technique is suitable and can be implemented for remote condition monitoring purposes.

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基于Bi-LSTM神经网络分类器的极端潮湿环境下聚合物绝缘子疏水等级精确检测

疏水等级(HG)的准确检测对于在潮湿和潮湿环境中对聚合物室外绝缘子进行可靠的状态监测以及延长其使用寿命至关重要。在此背景下，本文提出了一种新的HG检测方法，该方法将局部二值模式纹理特征注入双向长短期记忆(bi-LSTM)神经网络分类器。在11kv硅橡胶(SiR)聚合物绝缘子上进行了不同的实验，模拟了不同的疏水条件，并捕获了绝缘子表面水滴的图像。然后，对获取的图像进行适当的预处理，结合LBP技术提取图像的纹理特征。提取的特征随后被输入到bi-LSTM分类器中进行HG分类，该分类器在分类不同疏水性等级时获得了较高的识别精度。提出的汞柱检测技术适用于远程状态监测。

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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2022 IEEE Power & Energy Society General Meeting (PESGM)

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