On the space-time structure of human interlimb co-ordination |
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Authors: | J. A. Scott Kelso Carol A. Putnam David Goodman |
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Affiliation: | a Haskins Laboratories, New Haven, Connecticut, and Departments of Psychology and Biobehavioral Sciences, University of Connecticut, Storrs, Connecticut, USAb Biomechanics Laboratory, Dalhousie University, Halifax, Nova Scotia, Canadac Department of Kinesiology, Simon Fraser University, Burnaby, British Columbia, Canada |
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Abstract: | In three experiments we show, using behavioural measures of movement outcome, as well as movement trajectory information and resultant kinematic profiles, that there is a strong tendency for the limbs to be co-ordinated as a unitary structure even under conditions where the movements are of disparate difficulty. Environmental constraints (an obstacle placed in the path of one limb, but not in the other) are shown to modulate the space-time behaviour of both limbs (Experiment II). Our results obtain for symmetrical (Experiment I) as well as asymmetrical movements that involve non-homologous muscle groups (Experiment III). These findings suggest that in multi-joint limb movements, the many degrees of freedom are organised to function temporarily as a single coherent unit that is uniquely specific to the task demands placed on it. For movements in general, and two-handed movements in particular, such units are revealed in a partitioning of the relevant force demands for each component (a force scaling characteristic) and a preservation of the internal “topology” of the action, as indexed by the relative timing among components. These features, as well as systematic deviations from perfect synchrony between the limbs can be rationalised by a model that assumes the limbs behave qualitatively like non-linear oscillators. |
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