Fault Detection in an Electro-Hydrostatic Actuator Using Polyscale Complexity Measures and Bayesian Classification

Soleiman Hosseinpour;Witold Kinsner;Saman Muthukumarana;Nariman Sepehri
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Abstract

This article presents a novel approach for fault detection in a hydraulic actuation system. The fault of interest is the internal leakage of the actuator, which may often be caused by the wearing down of the piston seal. Bayesian classification and polyscale complexity measures are used in this article. Bayesian inference provides a probabilistic framework for classification that combines prior knowledge with observed data to update the probability distribution of the classification parameters. It results in a posterior distribution that reflects the updated knowledge. This allows for more accurate and reliable fault detection, especially in cases where the available data are uncertain or noisy. In order to extract features from the acquired signals, a polyscale measure known as variance fractal dimension (VFD) is employed. VFD measures are employed as features for Bayesian classification, allowing for distinguishing faulty conditions. The efficacy of the proposed method is demonstrated using experimental data, achieving an accuracy of 93.75%. Consequently, the proposed method is considered to be promising for fault detection in fluid power applications.
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利用多尺度复杂性度量和贝叶斯分类法检测静电致动器的故障
本文介绍了一种新型的液压传动系统故障检测方法。所关注的故障是执行器的内部泄漏,通常可能是由活塞密封磨损引起的。本文采用了贝叶斯分类法和多尺度复杂性测量法。贝叶斯推理为分类提供了一个概率框架,它将先验知识与观测数据相结合,以更新分类参数的概率分布。它产生的后验分布反映了更新后的知识。这使得故障检测更加准确可靠,尤其是在可用数据不确定或存在噪声的情况下。为了从获取的信号中提取特征,采用了一种称为方差分形维度(VFD)的多尺度测量方法。VFD 测量值被用作贝叶斯分类的特征,可用于区分故障情况。实验数据证明了所提方法的有效性,准确率达到 93.75%。因此,所提出的方法被认为有望用于流体动力应用中的故障检测。
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