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Battery Health Estimation Based on Multidomain Transfer Learning

Hanmin Sheng, Biplob Ray, Shaben Kayamboo, Xintao Xu, Shafei Wang

2023IEEE Transactions on Power Electronics32 citationsDOIOpen Access PDF

Abstract

Machine learning methods are expected to play a significant role in battery state of charge (SOH) estimation, leveraging their strengths in self-learning and nonlinear fitting. One of the key challenges in SOH estimation is the concept drift issue, which refers to changes in the data distribution between the training and test datasets. General machine learning methods assume that the training data shares similar characteristics with the test data. However, in SOH estimation tasks, differences in the environment and the characteristics of the battery itself can cause concept drift, which then impacts the model's effectiveness. As a result, many data-driven models that perform well in laboratory conditions struggle to be applied to other target batteries. This is a common and significant battery diagnosis technology issue, yet it remains unresolved. This article proposes a multidomain transfer Gaussian process regression (MTR-GPR) SOH estimation approach to address this issue. In this model, training data do not directly participate in the model's learning process. Instead, the MTR-GPR model extracts information from different datasets based on the distribution similarity. This method can fully use multisource battery ageing data while reducing the negative impact of distribution differences. Experimental results prove that MTR-GPR can make reliable SOH estimates with only 20% of target battery data. On the other hand, this method can provide the posterior probability distribution of the prediction results.

Topics & Concepts

Computer scienceKrigingTransfer of learningMachine learningArtificial intelligenceConcept driftProcess (computing)State of healthBattery (electricity)Support vector machineData miningTest dataData stream miningPower (physics)Operating systemPhysicsProgramming languageQuantum mechanicsAdvanced Battery Technologies ResearchAdvanced Chemical Sensor TechnologiesFault Detection and Control Systems
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