date: 2016-09-05T10:56:44Z
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pdf:docinfo:title: Exploiting biomechanical degrees of freedom for fast and accurate changes in movement direction: coordination underlying quick bow reversals during continuous cello bowing
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subject: Theoretical and empirical evidence suggests that accurate and efficient motor performance may be achieved by task-specific exploitation of biomechanical degrees of freedom.
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dc:title: Exploiting biomechanical degrees of freedom for fast and accurate changes in movement direction: coordination underlying quick bow reversals during continuous cello bowing
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cp:subject: Theoretical and empirical evidence suggests that accurate and efficient motor performance may be achieved by task-specific exploitation of biomechanical degrees of freedom.
pdf:docinfo:subject: Theoretical and empirical evidence suggests that accurate and efficient motor performance may be achieved by task-specific exploitation of biomechanical degrees of freedom.
pdf:docinfo:creator: Julius Verrel
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meta:creation-date: 2013-04-22T03:33:53Z
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dc:description: Theoretical and empirical evidence suggests that accurate and efficient motor performance may be achieved by task-specific exploitation of biomechanical degrees of freedom.
Keywords: coordination, timing, degrees of freedom, expertise, cello bowing, music performance, movement reversal
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dc:creator: Julius Verrel
description: Theoretical and empirical evidence suggests that accurate and efficient motor performance may be achieved by task-specific exploitation of biomechanical degrees of freedom.
dcterms:created: 2013-04-22T03:33:53Z
Last-Modified: 2016-09-05T10:56:44Z
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title: Exploiting biomechanical degrees of freedom for fast and accurate changes in movement direction: coordination underlying quick bow reversals during continuous cello bowing
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dc:subject: coordination, timing, degrees of freedom, expertise, cello bowing, music performance, movement reversal
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