Feature Selection for Cycle Life Prediction of Fast-Charged Lithium-ion Batteries

2023 IEEE International Conference on Industry 4.0, Artificial Intelligence, and Communications Technology (IAICT) Pub Date : 2023-07-13 DOI:10.1109/IAICT59002.2023.10205862

Rehan Mohammed, Vu Le, D. Creighton, Anwar Hosen

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Abstract

Machine learning algorithms are widely used in data-driven predictive maintenance to address prognostics of the condition of lithium-ion batteries over their cycle life. However, selecting relevant features remains a critical issue when predicting the remaining useful life (RUL) of these batteries using data-driven approaches. This issue can significantly affect the performance of machine learning algorithms and lead to time loss. In this paper, we investigate the effectiveness of two feature selection techniques that use the Recursive Feature Elimination (RFE) method for predicting the RUL of fast-charged lithium-ion batteries. We use the RFE-LASSO and RFE-XGB methods for feature selection and the Elastic Net and Relevance Vector Regression models for RUL prediction. Experimental results using Nature Energy’s battery dataset show that the RFEXGB feature selection method can provide stable prediction performance using 33 or more features. Furthermore, when integrated with the Elastic Net model, RFE-XGB achieves the lowest prediction error at a train-test split of 80%-20%.

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快充锂离子电池循环寿命预测特征选择

机器学习算法广泛用于数据驱动的预测性维护，以解决锂离子电池在其循环寿命期间的状况预测。然而，在使用数据驱动的方法预测这些电池的剩余使用寿命(RUL)时，选择相关特征仍然是一个关键问题。这个问题会严重影响机器学习算法的性能，并导致时间损失。在本文中，我们研究了两种使用递归特征消除(RFE)方法预测快充锂离子电池RUL的特征选择技术的有效性。我们使用RFE-LASSO和RFE-XGB方法进行特征选择，并使用弹性网络和相关向量回归模型进行RUL预测。使用Nature Energy电池数据集的实验结果表明，RFEXGB特征选择方法可以使用33个或更多的特征提供稳定的预测性能。在与Elastic Net模型相结合时，RFE-XGB在列车测试分割率为80%-20%时的预测误差最低。

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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来源期刊

2023 IEEE International Conference on Industry 4.0, Artificial Intelligence, and Communications Technology (IAICT)

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