Synth\`ese sonore de la clarinette avec mod\`ele de r\'esonateur \`a trous lat\'eraux optimis\'e sur des imp\'edances d'entr\'ee d'une clarinette r\'eelle

TL;DR

This paper presents a physics-based sound synthesis model for the clarinet that incorporates a simplified resonator with an open-tone holes lattice, addressing the complexity of the instrument's non-cylindrical bore for real-time applications.

Contribution

It introduces a novel resonator model with an optimized lateral holes lattice for clarinet sound synthesis, improving realism while maintaining computational efficiency.

Findings

Resonator model effectively simulates clarinet acoustics.

Model achieves real-time sound synthesis.

Inclusion of open-tone holes enhances realism.

Abstract

Sound synthesis can be developed using physics-based modelling of the musical instruments. These methods need the description of the various parts of sound production mechanism, in particular a model of the acoustic resonator that have to be simple enough due to the real-time constraint. However, in the case of the clarinet, the bore is quite not a cylindrical tube. An implementation of a resonator including a open-tone holes lattice is presented in this paper.