Abstract
Prognostics and health management (PHM) for electronic devices is intricate yet crucial in an era of electricity. The impending future of electric vehicles and clean energy requires more in-depth scrutiny and monitoring of their storage elements, lithium-ion batteries. State-of-health (SOH), as one of the most evident indicators for battery degradation quantifications, is a matter of vital importance that worths more attention. In this regard, this article proposes a novel SOH prognostics framework for lithium-ion batteries considering the limitations in the recorded measurements through the use of linear statistical k-nearest neighbors (LSKNN) data interpolation, maximal information entropy search (MIES), and collective sparse variational Gaussian process regression (CSVGPR). First, the incomplete charging measurements are processed by LSKNN to infer the missing data points and suppress the unanticipated noises in the extracted temporal features, which indicate the trend of degradation. Then, the MIES scheme is proposed to filter the features that are extraneous to the SOHs of the corresponding batteries and that greatly correlate to the other features in the feature set. Finally, the CSVGPR model, considering the uncertainties within each of the sparse variational Gaussian processes, is utilized to implement SOH prognosis. The proposed framework is verified by a subset of the repository from NASA. In the test, multiple prognostics comparisons of inner-battery tests, cross-battery tests, and tests with other statistical learning methods are presented. The experiment results lend support to the superiority and effectiveness of the work.
Highlights
Lithium-ion battery, as a leading representative of the storage components, is almost omnipresent in every corner of human lives, including energy storage power stations, smartphones, aircraft, high-speed railways, electric vehicles, etc. [1]–[3].The associate editor coordinating the review of this manuscript and approving it for publication was Nagarajan Raghavan .In this regard, the degradation of lithium-ion batteries is of immense safety and economic significance for the smooth operation of industries
Not being quite satisfactory, the results of ErrorE are understandable since the limited training samples restrict the optimization of hyperparameters in collective sparse variational Gaussian process regression (CSVGPR)
4) RESULTS OF CROSS-BATTERY PROGNOSTICS In this part, lithium-ion batteries B6, B7, and B18 are chosen for a training set, whereas the battery B5 is for testing
Summary
Lithium-ion battery, as a leading representative of the storage components, is almost omnipresent in every corner of human lives, including energy storage power stations, smartphones, aircraft, high-speed railways, electric vehicles, etc. [1]–[3].The associate editor coordinating the review of this manuscript and approving it for publication was Nagarajan Raghavan .In this regard, the degradation of lithium-ion batteries is of immense safety and economic significance for the smooth operation of industries. Lithium-ion battery, as a leading representative of the storage components, is almost omnipresent in every corner of human lives, including energy storage power stations, smartphones, aircraft, high-speed railways, electric vehicles, etc. The associate editor coordinating the review of this manuscript and approving it for publication was Nagarajan Raghavan. In this regard, the degradation of lithium-ion batteries is of immense safety and economic significance for the smooth operation of industries. Untold numbers of catastrophes have warned people the dare consequences of their ignorance of battery degradations [4]–[6]. PHM is a heated yet challenging topic worth great attention since the degradation might happen due to all sorts of reasons like exterior physical environments, intensive use within a short.
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