Related papers: Domain knowledge-guided machine learning framework for state of health estimation in Lithium-ion batteries

Domain knowledge-guided machine learning framework for state of health estimation in Lithium-ion batteries

URL: http://arxiv.org/abs/2409.14575v1
Date: Sun, 22 Sep 2024 19:39:53 GMT
Title: Domain knowledge-guided machine learning framework for state of health estimation in Lithium-ion batteries
Authors: Andrea Lanubile, Pietro Bosoni, Gabriele Pozzato, Anirudh Allam, Matteo Acquarone, Simona Onori,
Abstract summary: We propose five health indicators that can be extracted online from real-world electric vehicle operation. The proposed indicators provide physical insights into the energy and power fade of the battery. They can be computed for portions of the charging profile and real-world driving conditions, facilitating real-time battery degradation estimation.
Score: 0.0
License: http://creativecommons.org/licenses/by-nc-nd/4.0/
Abstract: Accurate estimation of battery state of health is crucial for effective electric vehicle battery management. Here, we propose five health indicators that can be extracted online from real-world electric vehicle operation and develop a machine learning-based method to estimate the battery state of health. The proposed indicators provide physical insights into the energy and power fade of the battery and enable accurate capacity estimation even with partially missing data. Moreover, they can be computed for portions of the charging profile and real-world driving discharging conditions, facilitating real-time battery degradation estimation. The indicators are computed using experimental data from five cells aged under electric vehicle conditions, and a linear regression model is used to estimate the state of health. The results show that models trained with power autocorrelation and energy-based features achieve capacity estimation with maximum absolute percentage error within 1.5% to 2.5% .

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