Predicting Remaining Useful Life of Wind Turbine Bearing using Linear Regression

2022 5th International Conference on Advanced Systems and Emergent Technologies (IC_ASET) Pub Date : 2022-03-22 DOI:10.1109/IC_ASET53395.2022.9765939

Ameni Jellali, H. Maatallah, K. Ouni

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引用次数: 2

Abstract

Almost all industrial wind turbine failures are caused by bearing degeneration. As a critical part of this functionality, precisely estimating the remaining usable life (RUL) of the bearings is necessary in order to ensure the reliability and availability of energy generation. This work investigates how to build a classification model in Python to estimate the RUL of a wind turbine main bearing. Making use of SCADA data Given by the Harvard Dataverse data set, we select only the four most physical characteristics from this data set to solve this challenge. Temperature, viscosity, dynamic load, and fatigue damage are all factors to consider. The suggested methods is based on a concept that was previously developed in the literature for prediction in other discipline. This paper also assesses which model is best for forecasting failure on the given data set. This assessment is carried out in order to determine that linear regression is the best method for producing a model capable of reducing variation and improving the metrics of our model with an accuracy level of 99 percent for daily prediction. This enables the development of a new sort of intelligent intention.

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风电轴承剩余使用寿命的线性回归预测

几乎所有工业风力发电机的故障都是由轴承退化引起的。作为该功能的关键部分，为了确保发电的可靠性和可用性，精确估计轴承的剩余使用寿命(RUL)是必要的。本文研究了如何在Python中建立一个分类模型来估计风力发电机主轴承的RUL。利用哈佛数据厌恶数据集给出的SCADA数据，我们从该数据集中只选择四个最物理的特征来解决这个挑战。温度、粘度、动载荷和疲劳损伤都是需要考虑的因素。建议的方法是基于先前在其他学科的预测文献中发展起来的概念。本文还评估了在给定数据集上哪种模型最适合预测故障。进行此评估是为了确定线性回归是产生能够减少变化并以99%的准确度水平提高模型度量的模型的最佳方法，用于日常预测。这使得一种新的智能意图得以发展。

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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2022 5th International Conference on Advanced Systems and Emergent Technologies (IC_ASET)

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