Robust adaptive motion/force tracking control of uncertain nonholonomic mechanical systems

M. Oya, C. Su, R. Katoh
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引用次数: 126

Abstract

The position/force tracking control of Lagrangian mechanical systems with classical nonholonomic constraints is addressed in this paper. The main feature of this paper is that 1) control strategy is developed at the dynamic level and can deal with model uncertainties in the mechanical systems; 2) the proposed control law ensures the desired trajectory tracking of the configuration state of the closed-loop system; 3) the tracking error of constraint force is bounded with a controllable bound; and 4) a global asymptotic stability result is obtained in the Lyapunov sense. A detailed numerical example is presented to illustrate the developed method.
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不确定非完整机械系统鲁棒自适应运动/力跟踪控制
研究了具有经典非完整约束的拉格朗日机械系统的位置/力跟踪控制问题。本文的主要特点是:1)控制策略是在动态层面制定的,可以处理机械系统中的模型不确定性;2)所提出的控制律保证了闭环系统组态状态的理想轨迹跟踪;3)约束力的跟踪误差有一个可控界;4)得到了Lyapunov意义下的全局渐近稳定性结果。给出了一个详细的数值算例来说明所开发的方法。
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