Robots Control based on Parameter Identification and Adaptive Gain Smooth Sliding Observer-controller
Authors: | Filipescu Adrian, University, Romania Dugard Luc, Laboratoire d’Automatique Grenoble, France Stamatescu Sabin, ASTI Control S.A, Bucharest, Romania |
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Topic: | 4.3 Robotics |
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Session: | Robot Manipulators Control |
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Keywords: | Robotic manipulators, adaptive gain, smooth sliding observer-controller, parameter identification. |
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Abstract
An adaptive gain, smooth sliding observer-controller is developed to control -degree of freedom rigid robotic manipulators with uncertain parameters. Furthermore, an on-line closed loop identification scheme, for time-varying parameters is proposed in order to obtain useful information despite loads, external disturbances and faults detection. In order to reduce the chattering, a smooth switching function (parameterised tangent hyperbolic function) is used instead of pure relay one, in the observer and the controller. The gains of the switching functions are adaptively updated, depending on the estimation and tracking errors, respectively. Using adaptive gains, the transient and tracking responses are improved. Simulation results with a two degree of freedom (DOF) robot manipulator are presented to show the interest of the approach.