Detection of Bow Direction and Stopped String Length by Analysis of Asymmetric Helmholtz Velocity Data from a Magnetic Violin Pickup

John Silzel

Abstract


The strings of bowed musical instruments undergo “Helmholtz motion” and exhibit time-varying displacements and velocities that contain information about the length of the string and the direction of action of the forces of static friction from the bow hair. This information is largely obscured in the sound radiated from acoustic instruments and in the output of pickups located on the bridge or instrument body. However, pickups that directly sense string dynamics can recover these information-rich signals from the bowed string. From the asymmetry of Helmholtz motion it is possible to deduce from pickup signal waveforms both the direction of the bow’s motion (upbow or down-bow) and the approximate length of the vibrating string as these change during a performance. Computationally simple methods applied to the output of a magnetic pickup permit recovery of aspects of a player’s bowing and left hand technique for study, or in electronic music, the control of performance parameters by bow direction or left hand position.

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Savart Journal

Article Information

  • Article published Jun 13, 2011.
  • This article has been accessed 4590 times since publication.

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