A finite-time convergent sliding mode control for rigid underactuated robotic manipulator

Manjusha Bhave, S. Janardhanan, L. Dewan
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引用次数: 7

Abstract

Robotic manipulators are widely used in space endeavors nowadays. For space applications, usually lightweight robotic manipulators are preferred. Hence, the system can be made underactuated intentionally. Also, one or more actuators may fail in space. Therefore, the system is highly uncertain and less actuated. The sliding mode control strategy does not depend on exact knowledge of the system model but chattering in states and control is observed. The present work showcases two different control techniques for achieving finite-time convergence and continuous control. The first technique is to choose a zero-error sliding function with a higher order sliding mode control and the second technique is to use a terminal sliding function with appropriate higher order sliding mode control for tracking control of an underactuated manipulator. A comparison is presented for the same.
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刚性欠驱动机械臂的有限时间收敛滑模控制
如今,机器人操纵器在太空活动中得到了广泛的应用。对于空间应用,通常轻型机器人操作器是首选。因此,可以有意地使系统处于欠驱动状态。此外,一个或多个执行器可能在太空中失效。因此,该系统具有高度的不确定性和低驱动性。滑模控制策略不依赖于系统模型的精确知识,而是观察到状态和控制中的抖振。本工作展示了实现有限时间收敛和连续控制的两种不同的控制技术。第一种方法是选择零误差滑动函数并采用高阶滑模控制,第二种方法是采用终端滑动函数并采用适当的高阶滑模控制对欠驱动机械臂进行跟踪控制。本文对两者进行了比较。
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