In this paper we consider the application problem of a redundant cable-driven parallel robot, tracking a reference trajectory in presence of uncertainties and disturbances. A Super Twisting controller is implemented using a recently proposed gains adaptation law [1], thus not requiring the knowledge of the upper bound of the lumped uncertainties. The controller is extended by a feedforward dynamic inversion control that reduces the effort of the sliding mode controller. Compared to a recently developed Adaptive Terminal Sliding Mode Controller for cable-driven parallel robots [2], the proposed controller manages to achieve lower tracking errors and less chattering in the actuation forces even in presence of perturbations. The system is implemented and tested in simulation using a model of a large redundant cable-driven robot and assuming noisy measurements. Simulations show the effectiveness of the proposed method.
Robust adaptive sliding mode control of a redundant cable driven parallel robot / Schenk, C.; Bulthoff, H. H.; Masone, C.. - (2015), pp. 427-434. (Intervento presentato al convegno 2015 19th International Conference on System Theory, Control and Computing (ICSTCC) tenutosi a Cheile Gradistei - Fundata Resort (ROU) nel 14-16 October 2015) [10.1109/ICSTCC.2015.7321331].
Robust adaptive sliding mode control of a redundant cable driven parallel robot
Masone C.
2015
Abstract
In this paper we consider the application problem of a redundant cable-driven parallel robot, tracking a reference trajectory in presence of uncertainties and disturbances. A Super Twisting controller is implemented using a recently proposed gains adaptation law [1], thus not requiring the knowledge of the upper bound of the lumped uncertainties. The controller is extended by a feedforward dynamic inversion control that reduces the effort of the sliding mode controller. Compared to a recently developed Adaptive Terminal Sliding Mode Controller for cable-driven parallel robots [2], the proposed controller manages to achieve lower tracking errors and less chattering in the actuation forces even in presence of perturbations. The system is implemented and tested in simulation using a model of a large redundant cable-driven robot and assuming noisy measurements. Simulations show the effectiveness of the proposed method.File | Dimensione | Formato | |
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https://hdl.handle.net/11583/2975813