Journal
RELIABILITY ENGINEERING & SYSTEM SAFETY
Volume 208, Issue -, Pages -Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.ress.2020.107396
Keywords
Lithium-ion battery; Life prediction; Stacked denoising autoencoder; Clustering by fast search; Deep learning
Funding
- General Research Fund [CityU 11204419]
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This study proposes a deep learning-based stacked denoising autoencoder (SDAE) method to directly predict battery life by extracting various battery features. By using the clustering by fast search (CFS) method to filter and select essential features, the accuracy and efficiency of lithium-ion battery life prediction are improved.
Accurate life prediction of lithium-ion batteries is important to help assess battery quality in advance, improve long-term battery planning, and subsequently guarantee the safety and reliability of battery operations. In this study, a deep learning-based stacked denoising autoencoder (SDAE) method is proposed to directly predict battery life by extracting various battery features. In general, the SDAE contains autoencoders and uses a deep network architecture to learn the complex nonlinear input-output relationship in a layer-by-layer fashion. Many features enabling the life prediction of lithium-ion batteries are extracted from discharge temperature and voltage curves. As redundancies in these features may result in poor prediction accuracy, a clustering by fast search (CFS) method is adopted to filter and select essential features. The CFS selects effective features by aggregating the types of battery features into clusters. All selected features are then fed into the SDAE to predict battery life cycle. Key hyperparameters are investigated, such as the number of iterations, the learning rate, and the denoising rate of the SDAE network. Experimental results show that the proposed selected-features-based deep learning method can provide more accurate and efficient battery life predictions with less fluctuation than the method without feature selection.
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