State estimation of lithium-ion batteries based on strain parameter monitored by fiber Bragg grating sensors
Multisensory and artificial intelligence approaches are key tools to achieve intelligent management of future battery systems. Strain monitoring using optical fiber sensors is an important role of multi-sensing in batteries. In this paper, the strain of batteries is monitored by fiber Bragg grating...
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sg-ntu-dr.10356-1628712022-11-11T05:14:05Z State estimation of lithium-ion batteries based on strain parameter monitored by fiber Bragg grating sensors Peng, Jun Jia, Shuhai Yang, Shuming Kang, Xilong Yu, Hongqiang Yang, Yaowen School of Civil and Environmental Engineering Engineering::Mechanical engineering Lithium-Ion Batteries Strain Monitoring Multisensory and artificial intelligence approaches are key tools to achieve intelligent management of future battery systems. Strain monitoring using optical fiber sensors is an important role of multi-sensing in batteries. In this paper, the strain of batteries is monitored by fiber Bragg grating sensors, and the strain data are used to estimate the state of charge (SoC) and state of health (SoH) of batteries. A Kalman filtering (KF) model is proposed for SoC estimation based on strain signal of cells. Moreover, this work employs an artificial neural network (NN) for SoC estimation based on the strain data. The experimental data are acquired from commercial lithium-ion cells under two operating conditions. The KF model is established based on multiple regression between strain and SoC, which shows good performance in estimation for the static cycles. For NN estimators, input variables with strain parameter can enhance the accuracy of SoC estimation. A KF model based on the peak strain is developed to estimate the capacity degradation of battery, and the results show that strain can be used as an indicator to estimate SoH. The results present an encouraging outcome that SoC estimation can be achieved using non-electrical parameters solely, and the strain signal can also be used as an auxiliary parameter to improve the accuracy of SoC estimation. This new exploration provides a basis for multi-parameter cooperative estimation of battery state in the future battery system with a multisensory approach. This work was supported by the National Natural Science Foundation of China (52075429 and 92060110) , Natural Science Foundation of Jiangxi Province (20202BAB204019). 2022-11-11T05:14:05Z 2022-11-11T05:14:05Z 2022 Journal Article Peng, J., Jia, S., Yang, S., Kang, X., Yu, H. & Yang, Y. (2022). State estimation of lithium-ion batteries based on strain parameter monitored by fiber Bragg grating sensors. Journal of Energy Storage, 52(Part B), 104950-. https://dx.doi.org/10.1016/j.est.2022.104950 2352-152X https://hdl.handle.net/10356/162871 10.1016/j.est.2022.104950 2-s2.0-85131434404 Part B 52 104950 en Journal of Energy Storage © 2022 Elsevier Ltd. All rights reserved. |
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Engineering::Mechanical engineering Lithium-Ion Batteries Strain Monitoring Peng, Jun Jia, Shuhai Yang, Shuming Kang, Xilong Yu, Hongqiang Yang, Yaowen State estimation of lithium-ion batteries based on strain parameter monitored by fiber Bragg grating sensors |
| description |
Multisensory and artificial intelligence approaches are key tools to achieve intelligent management of future battery systems. Strain monitoring using optical fiber sensors is an important role of multi-sensing in batteries. In this paper, the strain of batteries is monitored by fiber Bragg grating sensors, and the strain data are used to estimate the state of charge (SoC) and state of health (SoH) of batteries. A Kalman filtering (KF) model is proposed for SoC estimation based on strain signal of cells. Moreover, this work employs an artificial neural network (NN) for SoC estimation based on the strain data. The experimental data are acquired from commercial lithium-ion cells under two operating conditions. The KF model is established based on multiple regression between strain and SoC, which shows good performance in estimation for the static cycles. For NN estimators, input variables with strain parameter can enhance the accuracy of SoC estimation. A KF model based on the peak strain is developed to estimate the capacity degradation of battery, and the results show that strain can be used as an indicator to estimate SoH. The results present an encouraging outcome that SoC estimation can be achieved using non-electrical parameters solely, and the strain signal can also be used as an auxiliary parameter to improve the accuracy of SoC estimation. This new exploration provides a basis for multi-parameter cooperative estimation of battery state in the future battery system with a multisensory approach. |
| author2 |
School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering Peng, Jun Jia, Shuhai Yang, Shuming Kang, Xilong Yu, Hongqiang Yang, Yaowen |
| format |
Article |
| author |
Peng, Jun Jia, Shuhai Yang, Shuming Kang, Xilong Yu, Hongqiang Yang, Yaowen |
| author_sort |
Peng, Jun |
| title |
State estimation of lithium-ion batteries based on strain parameter monitored by fiber Bragg grating sensors |
| title_short |
State estimation of lithium-ion batteries based on strain parameter monitored by fiber Bragg grating sensors |
| title_full |
State estimation of lithium-ion batteries based on strain parameter monitored by fiber Bragg grating sensors |
| title_fullStr |
State estimation of lithium-ion batteries based on strain parameter monitored by fiber Bragg grating sensors |
| title_full_unstemmed |
State estimation of lithium-ion batteries based on strain parameter monitored by fiber Bragg grating sensors |
| title_sort |
state estimation of lithium-ion batteries based on strain parameter monitored by fiber bragg grating sensors |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/162871 |
| _version_ |
1751548524398379008 |