Traction Control of Electric Vehicles Using Sliding-Mode Controller with Tractive Force Observer

International Journal of Vehicular Technology Pub Date : 2014-12-21 DOI:10.1155/2014/829097
S. Kuntanapreeda
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引用次数: 22

Abstract

Traction control is an important element in modern vehicles to enhance drive efficiency, safety, and stability. Traction is produced by friction between tire and road, which is a nonlinear function of wheel slip. In this paper, a sliding-mode control approach is used to design a robust traction controller. The control objective is to operate vehicles such that a desired wheel slip ratio is achieved. A nonlinearity observer is employed to estimate tire tractive forces, which are used in the control law. Simulation and experimental results have illustrated the success of the proposed observer-based controller.
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带牵引力观测器的滑模控制器对电动汽车的牵引力控制
牵引力控制是现代汽车提高行驶效率、安全性和稳定性的重要组成部分。牵引力是由轮胎与路面之间的摩擦产生的,这是车轮滑移的非线性函数。本文采用滑模控制方法设计了鲁棒牵引控制器。控制目标是使车辆达到理想的轮滑比。采用非线性观测器估计轮胎牵引力,并将其用于控制律中。仿真和实验结果表明,该控制器是成功的。
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International Journal of Vehicular Technology
International Journal of Vehicular Technology
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