Combined Path Following and Compliance Control for Fully Actuated Rigid Body Systems in 3-D Space

This paper presents path following control for fully actuated rigid body systems in 3-D space. Transverse feedback linearization and a parallel transport frame are used to design a path following controller that is suitable for paths that are parametrized as regular threefold continuously differenti...

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Veröffentlicht in:	IEEE transactions on control systems technology 2017-09, Vol.25 (5), p.1750-1760
Hauptverfasser:	Bischof, Bernhard, Gluck, Tobias, Kugi, Andreas
Format:	Artikel
Sprache:	eng
Schlagworte:	Aerospace electronics Compliance control Indexes Kinematics Manipulators moving frame parallel robot path following control (PFC) Trajectory transverse feedback linearization (TFL) Vehicle dynamics
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creator	Bischof, Bernhard Gluck, Tobias Kugi, Andreas
description	This paper presents path following control for fully actuated rigid body systems in 3-D space. Transverse feedback linearization and a parallel transport frame are used to design a path following controller that is suitable for paths that are parametrized as regular threefold continuously differentiable curves. The application of this frame enables the handling of paths with zero curvature and reduces the complexity of the control law. The path following controller is combined with a compliance control concept. The strategy is verified by a series of measurement results on a DELTA robot with linear drives.
doi_str_mv	10.1109/TCST.2016.2630599
format	Article
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subjects	Aerospace electronics Compliance control Indexes Kinematics Manipulators moving frame parallel robot path following control (PFC) Trajectory transverse feedback linearization (TFL) Vehicle dynamics
title	Combined Path Following and Compliance Control for Fully Actuated Rigid Body Systems in 3-D Space
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