Adaptive sliding mode control of switched constrained robotic manipulators

Ibrahim F. Jasim, P. Plapper
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引用次数: 9

Abstract

In this paper, we address the control problem of a constrained robotic manipulators with their constraints continuously switched from one to another. Such a switching in the constraints causes a switching function to be inserted in the equation of the robot dynamics which may cause transient instability for the overall system. Two robust control strategies are presented in this paper to handle such switched robotic systems. In the first strategy, we assume that the bounds of the constraints are known. A sliding mode stabilizing controller is developed that can guarantee global stable performance of the given robotic system. In the second one, we relax the assumption of knowing the constraints bounds through deriving update laws for those bounds and new control actions that can guarantee global stable performance under such switching constraints. Simulation is performed for a two link robotic system having two switching constraints. The results obtained from the simulation verify the efficacy of the suggested control strategy.
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切换约束机器人的自适应滑模控制
在本文中,我们研究了约束条件不断地从一个约束条件切换到另一个约束条件的约束机器人的控制问题。这种约束的切换会在机器人动力学方程中插入一个切换函数,从而导致整个系统的暂态不稳定。本文提出了两种鲁棒控制策略来处理这种切换机器人系统。在第一种策略中,我们假设约束的边界是已知的。设计了一种滑模稳定控制器,可以保证给定机器人系统的全局稳定性能。在第二部分中,我们放宽了已知约束边界的假设,通过推导这些边界的更新律和新的控制动作来保证在这种切换约束下的全局稳定性能。对具有两个切换约束的两连杆机器人系统进行了仿真。仿真结果验证了所提控制策略的有效性。
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