影响因子：7.0
DOI码：10.1109/TTE.2023.3314532
发表刊物：IEEE Transactions on Transportation Electrification
关键字：Lithium-ion battery pack, State of Charge, Representative cells, Data-drive mode, Extended Kalman Filter
摘要：Electric vehicles (EVs) are instrumental in driving the transition towards transportation electrification, achieving carbon peak targets, and striving for carbon neutrality. Within the EV ecosystem, battery packs serve as vital energy storage systems. However, existing research has primarily concentrated on modeling and estimating the state of individual battery cells, posing challenges when applying these models directly to battery packs due to their inherent complexity and the variability among cells within them. Consequently, limited efforts have been made to explore alternative models and methods to improve estimation accuracy while reducing complexity. Here, we propose a novel data-driven and filter-fused algorithm for estimating battery packs’ state of charge (SOC). Firstly, representative cells are selected to minimize data redundancy and system complexity while accurately representing the pack’s state. Then, the long short-term memory network is used to establish a mapping between SOC and electrical measurements from the pack. Finally, we integrate the extended Kalman filter to smooth the output, creating a closed-loop structure that enhances estimation accuracy. Experimental results demonstrate the efficacy of the proposed method in accurately estimating the SOC for battery packs. Furthermore, the method exhibits robustness and generalization ability, which indicates its potential for practical application in real-world scenarios.
论文类型：期刊论文
学科门类：工学
文献类型：J
页面范围：Early Access
是否译文：否
发表时间：2023-09-01
收录刊物：SCI
发布期刊链接：https://ieeexplore.ieee.org/document/10247578