A Novel Nonlinear Super-Twisting \mathscr1 Adaptive Control for PKMs: From Design to Real-Time Experiments

This paper deals with robust-adaptive control of Parallel Kinematic Manipulators (PKMs), where a novel super-twisting \mathscr{L}_1 adaptive controller is proposed. The objective is to increase the robustness towards uncertainties as well as external disturbances of the standard \mathscr{L}_1 adapti...

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Bibliographic Details
Published in2024 European Control Conference (ECC) pp. 1802 - 1809
Main Authors Fitas, Youcef, Chemori, Ahmed, Lamaury, Johann, Roux, Thierry
Format Conference Proceeding
LanguageEnglish
Published EUCA 25.06.2024
Subjects
Europe
Kinematics
Manipulators
Parallel robots
Real-time systems
Robustness
Uncertainty
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DOI10.23919/ECC64448.2024.10591145

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Summary:This paper deals with robust-adaptive control of Parallel Kinematic Manipulators (PKMs), where a novel super-twisting \mathscr{L}_1 adaptive controller is proposed. The objective is to increase the robustness towards uncertainties as well as external disturbances of the standard \mathscr{L}_1 adaptive controller, by incorporating a robust super-twisting term. The proposed controller as well as the original \mathscr{L}_1 adaptive controller, are detailed for robot manipulators. Next, the experimental testbed is described, along with some implementation issues on FOEHN parallel robot. The proposed control scheme is compared with some existing literature controllers in two experimental scenarios, highlighting notable improvements in tracking performance reaching up to 75% with respect to the standard \mathscr{L}_1 adaptive controller.
DOI:10.23919/ECC64448.2024.10591145