Archivio Istituzionale della RicercaIn this paper we study if approximated linear models are accurate enough to predict the vibrations of a cable of a Cable-Driven Parallel Robot (CDPR) for different pretension levels. In two experiments we investigated the damping of a thick steel cable from the Cablerobot simulator [1] and measured the motion of the cable when a sinusoidal force is applied at one end of the cable. Using this setup and power spectral density analysis we measured the natural frequencies of the cable and compared these results to the frequencies predicted by two linear models: i) the linearization of partial differential equations of motion for a distributed cable, and ii) the discretization of the cable using a finite elements model. This comparison provides remarkable insights into the limits of approximated linear models as well as important properties of vibrating cables used in CDPR.
Modeling and analysis of cable vibrations for a cable-driven parallel robot / Schenk, C.; Masone, C.; Miermeister, P.; Bulthoff, H. H.. - (2017), pp. 454-461. (Intervento presentato al convegno 2016 IEEE International Conference on Information and Automation, IEEE ICIA 2016 tenutosi a Ningbo, China nel 01-03 August 2016) [10.1109/ICInfA.2016.7831867].
Modeling and analysis of cable vibrations for a cable-driven parallel robot
Masone C.;
2017
Abstract
In this paper we study if approximated linear models are accurate enough to predict the vibrations of a cable of a Cable-Driven Parallel Robot (CDPR) for different pretension levels. In two experiments we investigated the damping of a thick steel cable from the Cablerobot simulator [1] and measured the motion of the cable when a sinusoidal force is applied at one end of the cable. Using this setup and power spectral density analysis we measured the natural frequencies of the cable and compared these results to the frequencies predicted by two linear models: i) the linearization of partial differential equations of motion for a distributed cable, and ii) the discretization of the cable using a finite elements model. This comparison provides remarkable insights into the limits of approximated linear models as well as important properties of vibrating cables used in CDPR.
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https://hdl.handle.net/11583/2972474