Predictive approach to torque vectoring based on the Koopman operator

2021 European Control Conference (ECC) Pub Date : 2021-06-29 DOI:10.23919/ecc54610.2021.9654836
M. Švec, Š. Ileš, J. Matuško
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引用次数: 5

Abstract

Torque Vectoring (TV) system uses an individually controlled electric powertrain to improve the dynamic behavior and enhance the handling and stability of a vehicle. In this paper, a Model Predictive Control (MPC) algorithm with a model of the vehicle identified using the Koopman operator theory is proposed. The Koopman operator is a linear predictor for nonlinear dynamical systems based on the lifting of the nonlinear dynamics in a higher-dimensional space where its evolution is linear. Using such a model may allow for achieving similar performance to those of a nonlinear MPC with the computational efficiency of a linear MPC. The Koopman MPC was compared to a Linear Time-Variant (LTV) MPC, a common approach in the existing literature, and showed increased performance.
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基于Koopman算子的力矩矢量预测方法
扭矩矢量(TV)系统采用单独控制的电动传动系统,以改善车辆的动态性能,增强车辆的操控性和稳定性。本文提出了一种基于库普曼算子识别车辆模型的模型预测控制算法。库普曼算子是一种非线性动力系统的线性预测器,它基于非线性动力学在高维空间中的提升,而非线性动力学在高维空间中的演化是线性的。使用这样的模型可以实现与非线性MPC相似的性能,同时具有线性MPC的计算效率。将Koopman MPC与现有文献中常见的线性时变(LTV) MPC进行了比较,结果显示性能有所提高。
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2021 European Control Conference (ECC)
2021 European Control Conference (ECC)
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