In most studies, the state of health (SOH) effect is rarely considered in state ofcharge (SOC) estimation of the battery. The estimation error gradually increases in the late decline oflithium battery. In this study, the SOC estimation method based on SOH correction and the back-propagation neural network optimized by mind evolutionary algorithm (MEA) is proposed. First, SOH is estimated based on Thevenin battery model and BP neural network. Then, together with the current, voltage and temperature, the SOH is added to the input of the BP neural network, battery capacity can be estimated as the output of the neural network. The next, the initial weights and thresholds supported by This work was sponsored of the BP neural network are optimized by the MEA algorithm to achieve better estimation results. The application range of SOC estimation method is further broadened for both the new and old battery.
State of Charge Estimation Based on State of Health Correction for Lithium-ion Batteries
2018 IEEE Intelligent Vehicles Symposium (IV) ; 1578-1583
2018-06-01
901803 byte
Conference paper
Electronic Resource
English
STATE OF CHARGE ESTIMATION BASED ON STATE OF HEALTH CORRECTION FOR LITHIUM-ION BATTERIES
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