Unsupervised Minimum Redundancy Maximum Relevance Feature Selection for Predictive Maintenance

IF 1.4 Q2 ENGINEERING, MULTIDISCIPLINARY

International Journal of Prognostics and Health Management Pub Date : 2021-08-15 DOI:10.36001/ijphm.2021.v12i2.2955

V. Hamaide, F. Glineur

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引用次数: 4

Abstract

Identifying and selecting optimal prognostic health indicators in the context of predictive maintenance is essential to obtain a good model and make accurate predictions. Several metrics have been proposed in the past decade to quantify the relevance of those prognostic parameters. Other works have used the well-known minimum redundancy maximum relevance (mRMR) algorithm to select features that are both relevant and non-redundant. However, the relevance criterion is based on labelled machine malfunctions which are not always available in real life scenarios. In this paper, we develop a prognostic mRMR feature selection, an adaptation of the conventional mRMR algorithm, to a situation where class labels are a priori unknown, which we call unsupervised feature selection. In addition, this paper proposes new metrics for computing the relevance and compares different methods to estimate redundancy between features. We show that using unsupervised feature selection as well as adapting relevance metrics with the dynamic time warping algorithm help increase the effectiveness of the selection of health indicators for a rotating machine case study.

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预测性维修的无监督最小冗余最大相关特征选择

在预测性维护的背景下识别和选择最佳预后健康指标对于获得良好的模型和做出准确的预测至关重要。在过去的十年里，已经提出了一些指标来量化这些预后参数的相关性。其他工作已经使用众所周知的最小冗余最大相关性（mRMR）算法来选择相关和非冗余的特征。然而，相关性标准是基于标记的机器故障，而这些故障在现实生活中并不总是可用的。在本文中，我们开发了一种预测mRMR特征选择，它是对传统mRMR算法的一种自适应，适用于类标签先验未知的情况，我们称之为无监督特征选择。此外，本文提出了计算相关性的新指标，并比较了估计特征之间冗余度的不同方法。我们表明，使用无监督特征选择以及将相关性度量与动态时间扭曲算法相结合，有助于提高旋转机器案例研究中健康指标选择的有效性。

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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