Computational model of voice producting element in terms of varying inlet pressure

Computational model of voice producting element in terms of varying inlet pressure

Peer-reviewed article not indexed in WoS or Scopus

The article analyzed the results of the computational model of reed-based element. This element is investigated for its potential suitability to generate an artificial source voice. The energy to the model is supplied by compressed air. In solution is considered to use two-way interaction between solid and fluid physics of the computational model. Basic characteristics (frequency spectrum, fundamental frequency) are evaluated for the generated source voice. Relationship between deformation of the reed and the pressure in front of the reed is presented. This characteristic is one of the basic when we deal with theory of phonation based on the compressed air "bubble".

The article analyzed the results of the computational model of reed-based element. This element is investigated for its potential suitability to generate an artificial source voice. The energy to the model is supplied by compressed air. In solution is considered to use two-way interaction between solid and fluid physics of the computational model. Basic characteristics (frequency spectrum, fundamental frequency) are evaluated for the generated source voice. Relationship between deformation of the reed and the pressure in front of the reed is presented. This characteristic is one of the basic when we deal with theory of phonation based on the compressed air "bubble".

artificial vocal fold, vocal tract, FEM, structural-fluid interaction, reed-based element

artificial vocal fold, vocal tract, FEM, structural-fluid interaction, reed-based element

MATUG, M.; VAŠEK, M.; MIŠUN, V.; NAVRÁTIL, P.; ŘEHÁK, K.; CIVÍN, A.

19.12.2014

1805-4633

Engineering Mechanics

21

4

Czech Republic

211

218

8

http://hdl.handle.net/