Predicting the Remaining Useful Life of Ball Bearing Under Dynamic Loading Using Supervised Learning

2019 IEEE International Conference on Industrial Engineering and Engineering Management (IEEM) Pub Date : 2019-12-01 DOI:10.1109/IEEM44572.2019.8978649

Savinay Singh, Tanmay Agarwal, Girish Kumar, O. Yadav

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引用次数: 1

Abstract

Rolling element bearing is one of the most critical components of rotating machinery. Its failure can be catastrophic and often results in both human and material losses. This paper presents a machine learning model to predict the wear process phenomena and remaining useful life of a bearing element using classification and regression techniques respectively. An algorithm is developed to recognize the underlying mapping function directly from the data using machine learning principles. Pearson correlation methodology is used to track the important features associated with the evolution of wear and understand its progression. Further, backward elimination technique with ordinary least squares regression results was used to track features for predicting the remaining useful life. The proposed approach is illustrated on a bearing failure data set from the national aeronautics and space agency. This study will be useful in forecasting the fault status of the bearing before it causes any major loss.

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用监督学习预测动载荷下球轴承的剩余使用寿命

滚动轴承是旋转机械的关键部件之一。它的失败可能是灾难性的，经常导致人员和物质损失。本文提出了一种机器学习模型，分别使用分类和回归技术来预测轴承元件的磨损过程现象和剩余使用寿命。开发了一种算法，使用机器学习原理直接从数据中识别底层映射函数。皮尔逊相关方法用于跟踪与磨损演变相关的重要特征，并了解其进展。进一步，利用普通最小二乘回归结果的反向消去技术对特征进行跟踪，预测剩余使用寿命。该方法以美国国家航空航天局的轴承故障数据集为例进行了说明。这项研究将有助于在轴承造成任何重大损失之前预测其故障状态。

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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2019 IEEE International Conference on Industrial Engineering and Engineering Management (IEEM)

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