New types of faults detection and diagnosis using a mixed soft & hard clustering framework

Heng-Chao Yan, Junhong Zhou, C. Pang
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引用次数: 9

Abstract

In general, one limitation in current diagnosis approaches is that they could only detect the existing types of faults, while not be able to detect new types of faults. It is difficult to know in advance all fault types and new types of faults may occur in industry. As such, effective detection and diagnosis on new types of faults are important. In this paper, a novel mixed soft&hard assignment clustering framework will be proposed to detect and diagnose new types of faults based on the feature signals. As a popular soft assignment strategy, Gaussian mixture model targets to diagnose existing types from training and detect new category. Next, the hard assignment strategy based on the Euclidean distance of K-means is used to further classify the fault details if the new category is detected. Effectiveness of the proposed framework is testified on a partial discharge measurement dataset of different high voltage electronic and power equipment in industry. It is able to achieve as good performance as benchmark approaches for conventional diagnosis without new fault category, while it also effectively detects and classifies new types of faults with average accuracy of 75.0%.
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基于软硬混合聚类框架的新型故障检测与诊断
一般来说,当前诊断方法的一个局限性是只能检测到已存在的故障类型,而不能检测到新的故障类型。在工业生产中,很难预先知道所有的故障类型,而且还可能出现新的故障类型。因此,对新型故障进行有效的检测和诊断是十分重要的。本文提出了一种基于特征信号的新型软、硬混合分配聚类框架来检测和诊断新型故障。作为一种流行的软分配策略,高斯混合模型的目标是从训练中诊断出现有的类别并检测出新的类别。其次,在检测到新类别的情况下,采用基于k均值欧氏距离的硬分配策略对故障细节进行进一步分类。在工业高压电子和电力设备局部放电测量数据集上验证了该框架的有效性。在没有新故障类别的情况下,该方法能够达到与常规诊断基准方法一样好的性能,同时也能有效地检测和分类新故障类型,平均准确率为75.0%。
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