In this work we propose an uncertainty-aware controller for the Fly-crane system, a statically rigid cable-suspended aerial manipulator using the minimum number of aerial robots and cables. The force closure property of the Fly-crane makes it ideal for applications where high precision is required and external disturbances should be compensated. The proposed control requires the knowledge of the nominal values of a minimum number of uncertain kinematic parameters, thus simplifying the identification process and the controller implementation. We propose an optimization-based tuning method of the control gains that ensures stability despite parameter uncertainty and maximizes the H∞ performance. The validity of the proposed framework is shown through real experiments.
Full-Pose Manipulation Control of a Cable-Suspended Load with Multiple UAVs under Uncertainties / Sanalitro, D.; Savino, H. J.; Tognon, M.; Cortes, J.; Franchi, A.. - In: IEEE ROBOTICS AND AUTOMATION LETTERS. - ISSN 2377-3766. - 5:2(2020), pp. 2185-2191. [10.1109/LRA.2020.2969930]
Full-Pose Manipulation Control of a Cable-Suspended Load with Multiple UAVs under Uncertainties
Franchi A.
2020
Abstract
In this work we propose an uncertainty-aware controller for the Fly-crane system, a statically rigid cable-suspended aerial manipulator using the minimum number of aerial robots and cables. The force closure property of the Fly-crane makes it ideal for applications where high precision is required and external disturbances should be compensated. The proposed control requires the knowledge of the nominal values of a minimum number of uncertain kinematic parameters, thus simplifying the identification process and the controller implementation. We propose an optimization-based tuning method of the control gains that ensures stability despite parameter uncertainty and maximizes the H∞ performance. The validity of the proposed framework is shown through real experiments.| File | Dimensione | Formato | |
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