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Joseph Omakor, Suruz Miah, and Hicham Chaoui. Battery Reliability Assessment in Electric Vehicles: A State-of-the-Art. IEEE Access, 12:77903–77931, May 2024.
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@ARTICLE{OmMiCh2024-J1,
author={Joseph Omakor and Suruz Miah and Hicham Chaoui},
journal={IEEE Access},
title={Battery Reliability Assessment in Electric Vehicles: A State-of-the-Art},
year={2024},
month={May},
volume={12},
pages={77903-77931},
keywords={Lithium-ion batteries;Reliability;Degradation;Aging;Reviews;Computational modeling;Computed tomography;Voltage control;Machine learning;Quality assessment;X-ray tomography;Capacity fade;causes of failure;data-driven;degradation trajectory;electric vehicle;electrochemical impedance spectroscopy;failure modes mechanisms and effects analysis;incremental capacity and differential voltage analysis;Li-ion batteries;machine learning;model-based;power fade;qualitative analysis;quantitative analysis;remaining useful life;reliability;state of health;state of charge;transfer learning;X-ray computed tomography},
doi={10.1109/ACCESS.2024.3406424},
bib2html_pubtype = {Academic Journal},
bib2html_rescat = {Electric Vehicles},
}
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