Low Complexity Classification of Power Asset Faults for Real Time IoT-based Diagnostics

2020 IEEE Global Conference on Artificial Intelligence and Internet of Things (GCAIoT) Pub Date : 2020-10-02 DOI:10.1109/GCAIoT51063.2020.9345846

Alireza Salimy, I. Mitiche, P. Boreham, A. Nesbitt, G. Morison

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引用次数: 3

Abstract

This paper investigates a new application of Capsule Neural Network (CapsNet), in combination with Constant-Q Transform (CQT), for insulation fault signal detection in High Voltage (HV) power plants. First, a mapping from insulation fault time-series signals to time-frequency images is obtained using the CQT, providing both time and frequency information. Different ways of exploiting the resulting complex-valued CQT are proposed; the CQT magnitude as a 1-channel image and the real-imaginary values of the CQT as a 2-channel image. This paper presents novel work in HV condition monitoring by utilising the CQT and CapsNet methods. Feature extraction and classification, from the produced CQT spectrum, is performed by CapsNet and the Residual Neural Network (ResNet). A performance comparison between both models, shows that CapsNet outperforms the ResNet in terms of classification accuracy with lower computation. The reduced computation and improved classification accuracy proves ideal, for system implementation on an edge embedded device incorporated in an Internet of Things (IoT) arrangement.

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基于物联网实时诊断的低复杂度电力资产故障分类

本文研究了胶囊神经网络(CapsNet)与恒q变换(CQT)相结合在高压电厂绝缘故障信号检测中的新应用。首先，利用CQT获得绝缘故障时间序列信号到时频图像的映射，同时提供时间和频率信息;提出了利用所得到的复值CQT的不同方法;将CQT的幅值作为1通道图像，将CQT的实虚值作为2通道图像。本文介绍了利用CQT和CapsNet方法进行高压状态监测的新工作。从生成的CQT频谱中提取特征并进行分类，由CapsNet和残差神经网络(ResNet)执行。两种模型的性能比较表明，CapsNet在分类精度方面优于ResNet，计算量更少。减少的计算和提高的分类精度被证明是理想的，用于在物联网(IoT)安排的边缘嵌入式设备上实现系统。

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

2020 IEEE Global Conference on Artificial Intelligence and Internet of Things (GCAIoT)

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