Optimized interpolations and nonlinearity in numerical studies of woodwind instruments
Date
2005ISBN
963-8241-68-3978-963-8241-68-9
Source
Forum Acusticum Budapest 2005: 4th European Congress on Acustics4th European Congress on Acustics, Forum Acusticum 2005
Pages
1421-1426Google Scholar check
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We study the impedance spectra of woodwind instruments with arbitrary axisymmetric geometry. We perform piecewise interpolations of the instruments' profile, using interpolating functions amenable to analytic solutions of the Webster equation. Our algorithm optimizes on the choice of such functions, while ensuring compatibility of wave fronts at the joining points. Employing a standard mathematical model of a single-reed mouthpiece as well as the time-domain reflection function, which we derive from our impedance results, we solve the Schumacher equation for the pressure evolution in time. We make analytic checks that, despite the nonlinearity in the reed model and in the evolution equation, solutions are unique and singularity-free.