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Adaptive sliding mode control design for the 2-DOF robot arm manipulators

Ahmed Eltayeb, M. F. Rahmat, M. A Mohammed Eltoum, Sanhoury Ibrahim M. H., Mohd Ariffanan Mohd Basri

Year
2019
Citations
10

Abstract

In this paper, an adaptive sliding mode (ASMC) controller designed for a multi-inputs and multi-outputs (MIMO) robotic arm nonlinear manipulator system. The controller is designed based on Lyapunov theorem to achieve a robust trajectory tracking taking into consideration the system's uncertainties in addition to reducing the effect of chattering problem associated with the traditional sliding mode control. It's found that, even in the presence of the parameters' uncertainties, the performance of the proposed controller for the trajectory tracking is robust. Furthermore, chattering is significantly reduced.

Keywords

Control theory (sociology)TrajectorySliding mode controlController (irrigation)Nonlinear systemRobust controlControl engineeringLyapunov functionRobotic armRobot manipulator

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