Robust Transfer Learning for Battery Lifetime Prediction Using Early Cycle Data

IF 11.7 1区计算机科学 Q1 AUTOMATION & CONTROL SYSTEMS

IEEE Transactions on Industrial Informatics Pub Date : 2025-03-12 DOI:10.1109/TII.2025.3545079

Wenda Kang;Dianpeng Wang;Geurt Jongbloed;Jiawen Hu;Piao Chen

引用次数: 0

Abstract

Battery lifetime prediction is crucial in industrial applications. However, the lack of diversity in training data often poses challenges regarding the robustness and generalization of lifetime predictions for batteries from different batches. Motivated by the early cycle data from lithium-ion batteries, this article proposes a robust transfer learning method by employing a model average framework, where the weights are determined based on the distance between the source domain and the target domain. Kernel regression is used to build the prediction of battery lifetime using early cycle data, and transfer component analysis is utilized to transfer knowledge between different domains. The case study on lithium-ion phosphate/graphite cells demonstrates that the proposed method can mitigate the impact of negative transfer and has superior performance compared to traditional methods.

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基于早期循环数据的电池寿命预测鲁棒迁移学习

电池寿命预测在工业应用中至关重要。然而，训练数据缺乏多样性往往会对不同批次电池寿命预测的鲁棒性和泛化提出挑战。受锂离子电池早期循环数据的启发，本文提出了一种鲁棒迁移学习方法，该方法采用模型平均框架，根据源域和目标域之间的距离确定权重。利用早期循环数据利用核回归建立电池寿命预测，利用传递分量分析在不同领域之间进行知识传递。通过对磷酸锂离子/石墨电池的实例研究表明，该方法可以减轻负转移的影响，并且与传统方法相比具有优越的性能。

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

IEEE Transactions on Industrial Informatics 工程技术-工程：工业

CiteScore

24.10

自引率

8.90%

发文量

1202

审稿时长

5.1 months

期刊介绍： The IEEE Transactions on Industrial Informatics is a multidisciplinary journal dedicated to publishing technical papers that connect theory with practical applications of informatics in industrial settings. It focuses on the utilization of information in intelligent, distributed, and agile industrial automation and control systems. The scope includes topics such as knowledge-based and AI-enhanced automation, intelligent computer control systems, flexible and collaborative manufacturing, industrial informatics in software-defined vehicles and robotics, computer vision, industrial cyber-physical and industrial IoT systems, real-time and networked embedded systems, security in industrial processes, industrial communications, systems interoperability, and human-machine interaction.