Differences in curvature between constrained and unconstrained goal-directed movements to haptic targets.
Identifieur interne : 003132 ( Ncbi/Merge ); précédent : 003131; suivant : 003133Differences in curvature between constrained and unconstrained goal-directed movements to haptic targets.
Auteurs : Marieke C W. Van Der Graaff [Pays-Bas] ; Eli Brenner ; Jeroen B J. SmeetsSource :
- Experimental brain research [ 1432-1106 ] ; 2014.
English descriptors
- KwdEn :
- MESH :
- physiology : Movement, Psychomotor Performance, Touch, Visual Perception.
- Adult, Analysis of Variance, Biomechanical Phenomena, Constriction, Female, Friction, Goals, Humans, Male, Young Adult.
Abstract
Trajectories of goal-directed movements are less curved for movements over a surface (constrained) than for movements in empty space (unconstrained). To study whether this difference arises from feeling the surface slip across the skin or having to control the movements in a third dimension, we manipulated the available tactile information and the compliance of the surface. Participants were instructed to make straight movements towards haptic targets in the mid-sagittal plane. We found that constrained movements were less curved than unconstrained movements. The reduction of curvature was also visible with strongly reduced tactile information and for very compliant surfaces, so feeling the surface slip across the skin and having to control the movements in the third dimension are not critical. The reduced curvature when moving over a surface might arise from the extra information that the surface gives about the third dimension or from the extra information about the direction of the movement provided by the additional force needed to overcome friction.
DOI: 10.1007/s00221-014-4030-x
PubMed: 25008040
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pubmed:25008040Le document en format XML
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<front><div type="abstract" xml:lang="en">Trajectories of goal-directed movements are less curved for movements over a surface (constrained) than for movements in empty space (unconstrained). To study whether this difference arises from feeling the surface slip across the skin or having to control the movements in a third dimension, we manipulated the available tactile information and the compliance of the surface. Participants were instructed to make straight movements towards haptic targets in the mid-sagittal plane. We found that constrained movements were less curved than unconstrained movements. The reduction of curvature was also visible with strongly reduced tactile information and for very compliant surfaces, so feeling the surface slip across the skin and having to control the movements in the third dimension are not critical. The reduced curvature when moving over a surface might arise from the extra information that the surface gives about the third dimension or from the extra information about the direction of the movement provided by the additional force needed to overcome friction.</div>
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<Abstract><AbstractText>Trajectories of goal-directed movements are less curved for movements over a surface (constrained) than for movements in empty space (unconstrained). To study whether this difference arises from feeling the surface slip across the skin or having to control the movements in a third dimension, we manipulated the available tactile information and the compliance of the surface. Participants were instructed to make straight movements towards haptic targets in the mid-sagittal plane. We found that constrained movements were less curved than unconstrained movements. The reduction of curvature was also visible with strongly reduced tactile information and for very compliant surfaces, so feeling the surface slip across the skin and having to control the movements in the third dimension are not critical. The reduced curvature when moving over a surface might arise from the extra information that the surface gives about the third dimension or from the extra information about the direction of the movement provided by the additional force needed to overcome friction.</AbstractText>
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