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Coordination in Fast Repetitive Violin-Bowing Patterns

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  • Erwin Schoonderwaldt
  • Eckart Altenmüller

Abstract

We present a study of coordination behavior in complex violin-bowing patterns involving simultaneous bow changes (reversal of bowing direction) and string crossings (changing from one string to another). Twenty-two violinists (8 advanced amateurs, 8 students with violin as major subject, and 6 elite professionals) participated in the experiment. We investigated the influence of a variety of performance conditions (specific bowing patterns, dynamic level, tempo, and transposition) and level of expertise on coordination behavior (a.o., relative phase and amplitude) and stability. It was found that the general coordination behavior was highly consistent, characterized by a systematic phase lead of bow inclination over bow velocity of about 15° (i.e., string crossings were consistently timed earlier than bow changes). Within similar conditions, a high individual consistency was found, whereas the inter-individual agreement was considerably less. Furthermore, systematic influences of performance conditions on coordination behavior and stability were found, which could be partly explained in terms of particular performance constraints. Concerning level of expertise, only subtle differences were found, the student and professional groups (higher level of expertise) showing a slightly higher stability than the amateur group (lower level of expertise). The general coordination behavior as observed in the current study showed a high agreement with perceptual preferences reported in an earlier study to similar bowing patterns, implying that complex bowing trajectories for an important part emerge from auditory-motor interaction.

Suggested Citation

  • Erwin Schoonderwaldt & Eckart Altenmüller, 2014. "Coordination in Fast Repetitive Violin-Bowing Patterns," PLOS ONE, Public Library of Science, vol. 9(9), pages 1-18, September.
  • Handle: RePEc:plo:pone00:0106615
    DOI: 10.1371/journal.pone.0106615
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    References listed on IDEAS

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    1. Franz Mechsner & Dirk Kerzel & Günther Knoblich & Wolfgang Prinz, 2001. "Perceptual basis of bimanual coordination," Nature, Nature, vol. 414(6859), pages 69-73, November.
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