The paper describes a human-robot cooperative installation methodology of heavy and bulky components based on marker-based visual servoing, force control, and human-robot cooperation. The main advance in the human-robot cooperation is achieved by a shared-control of the interaction during the installation task, relieving the human operator by the manipulated load and giving to the robot a partially autonomous behaviour in the force-tracking direction. Experimental results are shown in the context of the H2020 CleanSky 2 EURECA project in which a side-wall panel is installed in a 1:1 scale mock-up scenario of an A320 plane fuselage environment.
Human-Robot Cooperative Interaction Control for the Installation of Heavy and Bulky Components
Roveda, Loris
Co-primo
Membro del Collaboration Group
;Franceschi, PaoloCo-primo
Membro del Collaboration Group
;Pedrocchi, NicolaCo-ultimo
Membro del Collaboration Group
2019
Abstract
The paper describes a human-robot cooperative installation methodology of heavy and bulky components based on marker-based visual servoing, force control, and human-robot cooperation. The main advance in the human-robot cooperation is achieved by a shared-control of the interaction during the installation task, relieving the human operator by the manipulated load and giving to the robot a partially autonomous behaviour in the force-tracking direction. Experimental results are shown in the context of the H2020 CleanSky 2 EURECA project in which a side-wall panel is installed in a 1:1 scale mock-up scenario of an A320 plane fuselage environment.| File | Dimensione | Formato | |
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Human-Robot_Cooperative_Interaction_Control_for_the_Installation_of_Heavy_and_Bulky_Components.pdf
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