An adaptive backstepping sliding mode control strategy for the magnetorheological semi-active suspension

Xin Xiong, Zeyu Pan, Yaming Liu, Jingjing Yue, Fei Xu
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Abstract

This paper proposes an adaptive backstepping sliding mode control strategy for addressing nonlinear issues in the semi-active suspension systems, such as uncertainties and external disturbances. Firstly, a hyperbolic tangent model is chosen for parameters identification of the magnetorheological (MR) damper, and a model for the semi-active suspension system is established. Secondly, a control strategy is designed by combining the backstepping and sliding mode control strategies, and adaptive methods are employed to mitigate external disturbances, enhance the robustness of the controller, and estimate system uncertainties. Finally, the stability and controllability of the closed-loop system are verified using Lyapunov theory. Under the road excitations of A-Class, B-Class, and speed bump, the dynamic characteristics of the passive control, backstepping sliding mode control, and adaptive backstepping sliding mode control strategies applied to the MR semi-active suspension are analyzed. The vertical acceleration of vehicle body, suspension dynamic deflection, and tire dynamic load are selected as evaluation indexes, the results indicate that this control strategy significantly improved the ride comfort and handling stability of the vehicle.
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磁流变半主动悬架的自适应反步进滑模控制策略
本文提出了一种自适应反步进滑模控制策略,用于解决半主动悬架系统中的非线性问题,如不确定性和外部干扰。首先,选择双曲正切模型对磁流变(MR)减振器进行参数识别,并建立半主动悬架系统模型。其次,结合反步法和滑模控制策略设计了一种控制策略,并采用自适应方法来缓解外部干扰、增强控制器的鲁棒性以及估计系统的不确定性。最后,利用 Lyapunov 理论验证了闭环系统的稳定性和可控性。在 A 级、B 级和减速带等路面激励下,分析了应用于 MR 半主动悬架的被动控制、反步滑模控制和自适应反步滑模控制策略的动态特性。选取车身垂直加速度、悬架动态挠度和轮胎动态载荷作为评价指标,结果表明该控制策略显著提高了车辆的乘坐舒适性和操纵稳定性。
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来源期刊
CiteScore
4.40
自引率
17.60%
发文量
263
审稿时长
3.5 months
期刊介绍: The Journal of Automobile Engineering is an established, high quality multi-disciplinary journal which publishes the very best peer-reviewed science and engineering in the field.
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