基于神经网络和无气味卡尔曼滤波的锂离子电池电量状态估计

Seyedmehdi Hosseininasab, Zhiwen Wan, Tim Bender, Giovanni Vagnoni, Lennart Bauer
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引用次数: 4

摘要

准确估计电池荷电状态(SoC)对于电动汽车的可靠节能运行至关重要。基于模型的算法由于其具有良好的特性而被广泛应用于SoC估计。然而,在建模精度要求的提高和滤波器参数的选择等方面仍然存在挑战。本文提出了一种新的基于模型的组合算法,该算法取代了目前流行的等效电路模型(ECM)的实现,而是考虑到其高度非线性电池建模的能力,在离线训练神经网络(NN)中配置无气味卡尔曼滤波器(UKF)。采用不同的轮廓来比较神经网络和ECM的建模性能。随后,采用基于残差的自适应协方差匹配算法对该方法进行了进一步探索,目的是动态调整滤波器参数。为了比较,本文还构造了基于ECM的EKF和UKF,以及自适应算法。最后,根据从WLTP实验室获得的真实数据,在初始偏移、容量误差和考虑分流热效应的电流传感器漂移的情况下,评估和讨论了所提出的滤波器。
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State-of-Charge Estimation of Lithium-ion Battery Based on a Combined Method of Neural Network and Unscented Kalman filter
An accurate estimation of the battery State of Charge (SoC) is essential for reliable and energy-efficient operation of electric vehicles (EVs). Model-based algorithms have been ubiquitously accepted for SoC estimation due to their promising features. However, challenges remain concerning the elevated modeling precision requirement and appropriate filter parameter selection. This paper presents a novel combined model-based algorithm that instead of the prevailing implementation of the equivalent circuit model (ECM), an offline trained neural network (NN) is configured with an unscented Kalman filter (UKF) considering its capability of highly nonlinear battery modeling. Distinct profiles are employed to compare the modeling performances between NN and ECM. Subsequently, the proposed method is further explored with the residual-based adaptive covariance matching algorithm aiming to tune filter parameters dynamically. For comparison, ECM based EKF and UKF, along with the adaptive algorithm are also constructed. Ultimately, the presented filters are assessed and discussed under situations of initial offset, capacity error, and current sensor drift considering shunt thermal effects with real data obtained from WLTP lab results.
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