Robust finite frequency control for MRF damper-based semi-active suspension systems subject to time delay and hysteresis nonlinearity

Mengqi Deng, Pak Kin Wong, Zhijiang Gao, Xinbo Ma, Jing Zhao
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Abstract

The magnetorheological fluid (MRF) semi-active suspension (SAS) is a crucial system for the absorption and the dissipation of vibration energy. However, the hysteresis nonlinearity of the MRF actuator is difficult to tackle in the control design of the MRF-SAS system. A novel robust finite frequency control strategy based on a Taylor approximation is proposed in this work to improve the vibration suppression of the MRF-SAS system with hysteresis nonlinearity. First, a hyperbolic tangent model is introduced to represent the nonlinear dynamic characteristics of the MRF damper, and then the modified Taylor expansion is adopted to approximate the hyperbolic tangent model. Moreover, an online sequential extreme learning machine (ELM) is employed to construct the inverse model of the MRF damper. Finally, to trade off vehicle handling stability and ride comfort, the robust finite frequency controller is designed based on the linear matrix inequations (LMIs) with the consideration of the time delay, the control perturbation, and the actuator saturation. It can be seen from the simulation results that the proposed robust finite frequency controller is more effective in improving vibration suppression of the MRF-SAS system than the skyhook controller.
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基于 MRF 阻尼器的半主动悬架系统的鲁棒有限频率控制,受时间延迟和滞后非线性影响
磁流变液(MRF)半主动悬架(SAS)是吸收和消散振动能量的关键系统。然而,在 MRF-SAS 系统的控制设计中,MRF 执行器的滞后非线性是难以解决的问题。本文提出了一种基于泰勒近似的新型稳健有限频率控制策略,以改善具有滞后非线性的 MRF-SAS 系统的振动抑制效果。首先,引入双曲正切模型来表示 MRF 阻尼器的非线性动态特性,然后采用修正的泰勒展开来逼近双曲正切模型。此外,还采用了在线顺序极端学习机(ELM)来构建 MRF 阻尼器的逆模型。最后,为了权衡车辆操纵稳定性和乘坐舒适性,基于线性矩阵不等式(LMI)设计了鲁棒有限频率控制器,并考虑了时间延迟、控制扰动和执行器饱和。从仿真结果可以看出,所提出的鲁棒有限频率控制器在改善 MRF-SAS 系统的振动抑制方面比天钩控制器更有效。
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来源期刊
CiteScore
3.50
自引率
18.80%
发文量
99
审稿时长
4.2 months
期刊介绍: Systems and control studies provide a unifying framework for a wide range of engineering disciplines and industrial applications. The Journal of Systems and Control Engineering refleSystems and control studies provide a unifying framework for a wide range of engineering disciplines and industrial applications. The Journal of Systems and Control Engineering reflects this diversity by giving prominence to experimental application and industrial studies. "It is clear from the feedback we receive that the Journal is now recognised as one of the leaders in its field. We are particularly interested in highlighting experimental applications and industrial studies, but also new theoretical developments which are likely to provide the foundation for future applications. In 2009, we launched a new Series of "Forward Look" papers written by leading researchers and practitioners. These short articles are intended to be provocative and help to set the agenda for future developments. We continue to strive for fast decision times and minimum delays in the production processes." Professor Cliff Burrows - University of Bath, UK This journal is a member of the Committee on Publication Ethics (COPE).cts this diversity by giving prominence to experimental application and industrial studies.
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