Anisotropic tracking: Evidence for automatic synergy formation in a bimanual task

Investigation of interlimb synergy has become synonymous with the study of coordination dynamics and is largely confined to periodic movement. Based on a computational approach this paper demonstrates a method of investigating the formation of a novel synergy in the context of stochastic, spatially...

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Bibliographic Details
Published in:Human movement science 2002-12, Vol.21 (5), p.723-748
Main Authors: Neilson, Peter D, Neilson, Megan D
Format: Article
Language:English
Subjects:
Adult
Anisotropy
Bimanual coordination
Coordination dynamics
Functional Laterality
Humans
Male
Nonlinear Dynamics
Orientation
Practice (Psychology)
Psychomotor Performance
Psychophysics
Self-organisation
Stochastic Processes
Synergy
Visual tracking
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Summary:Investigation of interlimb synergy has become synonymous with the study of coordination dynamics and is largely confined to periodic movement. Based on a computational approach this paper demonstrates a method of investigating the formation of a novel synergy in the context of stochastic, spatially asymmetric movements. Nine right-handed participants performed a two degrees of freedom (2D) “etch-a-sketch” tracking task where the right hand controlled the horizontal position of the response cursor on the display while the left hand controlled the vertical position. In a pre-practice 2D tracking task, measures of phase lag between the irregularly moving target and the response showed that participants controlled left and right hands independently, performance of the right hand being slightly superior to the left. Participants then undertook 4 h 16 min distributed practice of a one degree of freedom etch-a-sketch task where the target was constrained to move irregularly in only the 45° direction on the display. To track such a target accurately participants had to make in-phase coupled stochastic movements of the hands. In a post-practice 2D task, measures of phase lag showed anisotropic improvement in performance, the amount of improvement depending on the direction of motion on the display. Improvement was greatest in the practised 45° and least in the orthogonal 135° direction. Best and worst performances were no longer in the directions associated with right and left hands independently, but in directions requiring coupled movements of the two hands. These data support the proposal that the nervous system can establish a model of novel coupling between the hands and thereby form a task-dependent bimanual synergy for controlling the stochastic coupled movements as an entity.
ISSN:0167-9457
1872-7646
DOI:10.1016/S0167-9457(02)00181-1