集成了半监督转移学习的增强型视觉转换器,用于锂离子电池的健康状况和剩余使用寿命评估

IF 9.6 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
Ya-Xiong Wang , Shangyu Zhao , Shiquan Wang , Kai Ou , Jiujun Zhang
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引用次数: 0

摘要

锂离子电池的健康状况(SOH)和剩余使用寿命(RUL)对于健康管理和诊断至关重要。然而,大多数数据驱动的估算方法严重依赖稀缺的标记数据,而传统的迁移学习在处理各种电池类型的领域转换方面面临挑战。本文提出了一种集成了半监督迁移学习的增强型视觉变换器,用于锂离子电池的 SOH 和 RUL 估算。本文开发了一种深度可分离卷积视觉变换器,利用深度卷积提取局部老化细节,并利用多头注意力建立老化信息之间的全局依赖关系。利用最大均值差异来初步缩小源域和目标域之间的分布差异,为微调目标域模型提供了一个良好的起点。随后,通过半监督学习标记与目标电池同类型的丰富老化数据,弥补源模型在捕捉目标电池老化特征方面的局限性。一致性正则化将有对抗扰动和无对抗扰动预测之间的交叉熵纳入整体模型的梯度反向传播中。特别是,在不同类型电池的 13-15 组实验中,SOH 估计的均方根误差小于 0.66%,RUL 估计的平均相对误差为 3.86%。利用大量未标记的老化数据,所提出的方法可以实现对 SOH 和 RUL 的精确估算。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Enhanced vision-transformer integrating with semi-supervised transfer learning for state of health and remaining useful life estimation of lithium-ion batteries

Enhanced vision-transformer integrating with semi-supervised transfer learning for state of health and remaining useful life estimation of lithium-ion batteries

The state of health (SOH) and remaining useful life (RUL) of lithium-ion batteries are crucial for health management and diagnosis. However, most data-driven estimation methods heavily rely on scarce labeled data, while traditional transfer learning faces challenges in handling domain shifts across various battery types. This paper proposes an enhanced vision-transformer integrating with semi-supervised transfer learning for SOH and RUL estimation of lithium-ion batteries. A depth-wise separable convolutional vision-transformer is developed to extract local aging details with depth-wise convolutions and establishes global dependencies between aging information using multi-head attention. Maximum mean discrepancy is employed to initially reduce the distribution difference between the source and target domains, providing a superior starting point for fine-tuning the target domain model. Subsequently, the abundant aging data of the same type as the target battery are labeled through semi-supervised learning, compensating for the source model's limitations in capturing target battery aging characteristics. Consistency regularization incorporates the cross-entropy between predictions with and without adversarial perturbations into the gradient backpropagation of the overall model. In particular, across the experimental groups 13–15 for different types of batteries, the root mean square error of SOH estimation was less than 0.66 %, and the mean relative error of RUL estimation was 3.86 %. Leveraging extensive unlabeled aging data, the proposed method could achieve accurate estimation of SOH and RUL.

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来源期刊
Energy and AI
Energy and AI Engineering-Engineering (miscellaneous)
CiteScore
16.50
自引率
0.00%
发文量
64
审稿时长
56 days
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