Hybrid Approach Control of Micro-Positioning Stage with a Piezoelectric Actuator

Ounissi Amor, A. Kaddouri, R. Abdessemed
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Abstract

For a class of system with nonlinear hysteresis, this paper presents an adaptive hybrid controller based on the hybrid backstepping-sliding mode, and describes the controller analytically by the LuGre model. Both backstepping and the sliding mode techniques are based on the Lyapunov theory. Drawing on this common point, the authors developed a new controller combining the two control techniques with a recursive design. The design aims to achieve two effects: assuring the stability of the closed loop system, and improving the continuous performance of the tracking position trajectory. The performance of the proposed hybrid controller was verified by implementing the identified Piezo model. The results show that our controller can track the system output desirably with the reference trajectory.
压电作动器微定位平台的混合逼近控制
针对一类具有非线性滞回的系统,提出了一种基于混合步进-滑模的自适应混合控制器,并用LuGre模型对该控制器进行了解析描述。退步和滑模技术都是基于李亚普诺夫理论。利用这一共同点,作者开发了一种将两种控制技术与递归设计相结合的新控制器。设计的目的是达到两种效果:保证闭环系统的稳定性,提高跟踪位置轨迹的连续性能。通过实现所识别的压电模型,验证了混合控制器的性能。实验结果表明,该控制器能较好地跟踪系统输出与参考轨迹。
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