Comparative Study of Four Filter-based Algorithms for State-of-charge Estimation of Lithium-ion Batteries

Yong Tian, Zhibing Zeng, Lijuan Xiang, Xiaoyu Li, Jindong Tian
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Abstract

Accurate estimation of state of charge (SOC) is greatly crucial for safely and reliably charging and discharging the lithium-ion batteries, especially for those used in electric vehicles (EVs). Currently, a lot of algorithms have been proposed to estimate the battery SOC. In this paper, we compared four filter-based algorithms, including the standard particle filter (PF), the unscented Kalman filter, the unscented Kalman-particle filter (UPF), and the extended Kalman-particle filter (EPF), in terms of the estimate accuracy and convergence rate. The federal urban driving schedule (FUDS) and the urban dynamometer driving schedule (UDDS) were applied to evaluate the performance of these estimation algorithms. Comparison results showed that compared with the UKF, the PF can improve the estimate accuracy, however, it takes much more time to correct the initial SOC error. By introducing the EKF and UKF into the particle filter, the convergence rate can be greatly improved without the decrease in estimate accuracy, and convergence rate is very close to that of the UKF.
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基于滤波的锂离子电池电量状态估计算法的比较研究
准确的荷电状态(SOC)估算对于锂离子电池,特别是电动汽车锂离子电池的安全、可靠充放电至关重要。目前,已经提出了许多估算电池SOC的算法。本文比较了标准粒子滤波(PF)、无气味卡尔曼滤波(unscented Kalman filter)、无气味卡尔曼粒子滤波(unscented Kalman-particle filter, UPF)和扩展卡尔曼粒子滤波(extended Kalman-particle filter, EPF)四种基于滤波器的算法在估计精度和收敛速度方面的差异。采用联邦城市驾驶计划(FUDS)和城市测功机驾驶计划(UDDS)对这些估计算法的性能进行了评价。对比结果表明,与UKF相比,PF可以提高估计精度,但校正初始SOC误差所需的时间要长得多。在粒子滤波中引入EKF和UKF,在不降低估计精度的情况下,大大提高了粒子滤波的收敛速度,收敛速度与UKF非常接近。
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