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A novel data-driven fast capacity estimation of spent electric vehicle lithium-ion batteries

A novel data-driven fast capacity estimation of spent electric vehicle lithium-ion batteries
A novel data-driven fast capacity estimation of spent electric vehicle lithium-ion batteries
Fast capacity estimation is a key enabling technique for second-life of lithium-ion batteries due to the hard work involved in determining the capacity of a large number of used electric vehicle (EV) batteries. This paper tries to make three contributions to the existing literature through a robust and advanced algorithm: (1) a three layer back propagation artificial neural network (BP ANN) model is developed to estimate the battery capacity. The model employs internal resistance expressing the battery’s kinetics as the model input, which can realize fast capacity estimation; (2) an estimation error model is established to investigate the relationship between the robustness coefficient and regression coefficient.
It is revealed that commonly used ANN capacity estimation algorithm is flawed in providing robustness of parameter measurement uncertainties; (3) the law of large numbers is used as the basis for a proposed robust estimation approach, which optimally balances the relationship between estimation accuracy and disturbance rejection. An optimal range of the threshold for robustness coefficient is also discussed and proposed. Experimental results demonstrate the efficacy and the robustness of the BP ANN model together with the proposed identification approach, which can provide an important basis for large scale applications of second-life of batteries
1996-1073
8076-8094
Zhang, Caiping
e7275506-0354-4315-a41f-373f9ba5e7b2
Jiang, Jiuchun
f8179175-250c-497f-9810-a2ccaf207547
Zhang, Weige
d6043aa2-5f89-4231-830c-e22a9087c6b5
Wang, Yukun
af179023-a738-474a-8a16-bba83ff220c0
Sharkh, S.M.
c8445516-dafe-41c2-b7e8-c21e295e56b9
Xiong, Rui
d4c43495-9909-4d67-a2e5-555f1ad5114a
Zhang, Caiping
e7275506-0354-4315-a41f-373f9ba5e7b2
Jiang, Jiuchun
f8179175-250c-497f-9810-a2ccaf207547
Zhang, Weige
d6043aa2-5f89-4231-830c-e22a9087c6b5
Wang, Yukun
af179023-a738-474a-8a16-bba83ff220c0
Sharkh, S.M.
c8445516-dafe-41c2-b7e8-c21e295e56b9
Xiong, Rui
d4c43495-9909-4d67-a2e5-555f1ad5114a

Zhang, Caiping, Jiang, Jiuchun, Zhang, Weige, Wang, Yukun, Sharkh, S.M. and Xiong, Rui (2014) A novel data-driven fast capacity estimation of spent electric vehicle lithium-ion batteries. Energies, 7 (12), 8076-8094. (doi:10.3390/en7128076).

Record type: Article

Abstract

Fast capacity estimation is a key enabling technique for second-life of lithium-ion batteries due to the hard work involved in determining the capacity of a large number of used electric vehicle (EV) batteries. This paper tries to make three contributions to the existing literature through a robust and advanced algorithm: (1) a three layer back propagation artificial neural network (BP ANN) model is developed to estimate the battery capacity. The model employs internal resistance expressing the battery’s kinetics as the model input, which can realize fast capacity estimation; (2) an estimation error model is established to investigate the relationship between the robustness coefficient and regression coefficient.
It is revealed that commonly used ANN capacity estimation algorithm is flawed in providing robustness of parameter measurement uncertainties; (3) the law of large numbers is used as the basis for a proposed robust estimation approach, which optimally balances the relationship between estimation accuracy and disturbance rejection. An optimal range of the threshold for robustness coefficient is also discussed and proposed. Experimental results demonstrate the efficacy and the robustness of the BP ANN model together with the proposed identification approach, which can provide an important basis for large scale applications of second-life of batteries

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Published date: 1 December 2014
Organisations: Mechatronics

Identifiers

Local EPrints ID: 372341
URI: http://eprints.soton.ac.uk/id/eprint/372341
ISSN: 1996-1073
PURE UUID: 758391b3-cba5-4c39-906f-ae9b1077f5c9
ORCID for S.M. Sharkh: ORCID iD orcid.org/0000-0001-7335-8503

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Date deposited: 05 Dec 2014 08:53
Last modified: 15 Mar 2024 02:48

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Contributors

Author: Caiping Zhang
Author: Jiuchun Jiang
Author: Weige Zhang
Author: Yukun Wang
Author: S.M. Sharkh ORCID iD
Author: Rui Xiong

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