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R. Di Rienzo, N. Nicodemo, R. Roncella, R. Saletti, N. Vennettilli, S. Asaro, R. Tola, F. Baronti: “Cloud-based optimization of a battery model parameter identification algorithm for battery state-of-health estimation in electric vehicles”, Batteries

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Connectivity and cloud computing are key elements in the future of electric mobility. They allow manufacturers to provide advanced fleet management and predictive diagnostic services. In particular, cloud computing dramatically enhances data availability and enables the use of more complex and accurate state estimation algorithms for electric vehicle lithium-ion batteries. A tuning procedure for a moving window least squares algorithm to estimate the parameters of a 2-RC equivalent circuit battery model is presented in this paper. The tuning procedure uses real data collected from a test vehicle and uploaded to the Stellantis-CRF cloud. The tuned algorithm was applied to eight months of road tests and showed very small estimation errors. The errors are comparable to other literature data, even when the literature results were obtained in laboratory tests. The estimated model parameters are tracked through time and seem accurate enough to show the first signs of battery aging.

Batteries 2023, 9(10), 486

 

Keywords: lithium-ion batteries; ECM parameter identification; state-of-health; electric vehicles; cloud-based algorithm

File: https://doi.org/10.3390/batteries9100486