In the paper a mathematical model of airflow in human vocal folds is presented. The geometry of the glottal channel is based on measurements of excised human larynges. The airflow is modeled by nonstationary incompressible Navier-Stokes equations in a 2D computational domain, which is deformed in time due to vocal fold vibration. The paper presents numerical results and focuses on flow separation in glottis. Quantitative data from numerical simulations are compared to results of measurements by Particle Image Velocimetry (PIV), performed on a scaled self-oscillating physical model of vocal folds
A new numerical model of the vocal folds is presented based on the well-known two-mass models of the...
Most flow models used in numerical simulation of voiced sound production rely, for the sake of simpl...
A new numerical model of the vocal folds is presented based on the well-known two-mass models of the...
In the paper a mathematical model of airflow in human vocal folds is presented. The geometry of the ...
International audienceIn the paper a mathematical model of airflow in human vocal folds is presented...
Finite-element modeling of self-sustained vocal fold oscillations during voice production has mostly...
the pressure and velocity fields in coronal plane along the vibrating vocal folds were studied using...
The airflow velocities and pressures are calculated from a three-dimensional model of the human lary...
International audienceThe paper provides experimental data on flow separation from a model of the hu...
This research aims to improve the fundamental understanding of the multiphysics nature of voice prod...
The contribution describes PIV (Particle Image Velocimetry) measurement of airflow in the glottal re...
Master thesis deals with creating numerical model of the human vocal folds. Calculation algorithm in...
The goal of physical modelling of speech is to understand and reproduce the physical phenomena occur...
Producing an accurate model of the human voice has been the goal of researchers for a very long tim...
Physical modeling of phonation intends to explain and reproduce the phenomena occurring during the v...
A new numerical model of the vocal folds is presented based on the well-known two-mass models of the...
Most flow models used in numerical simulation of voiced sound production rely, for the sake of simpl...
A new numerical model of the vocal folds is presented based on the well-known two-mass models of the...
In the paper a mathematical model of airflow in human vocal folds is presented. The geometry of the ...
International audienceIn the paper a mathematical model of airflow in human vocal folds is presented...
Finite-element modeling of self-sustained vocal fold oscillations during voice production has mostly...
the pressure and velocity fields in coronal plane along the vibrating vocal folds were studied using...
The airflow velocities and pressures are calculated from a three-dimensional model of the human lary...
International audienceThe paper provides experimental data on flow separation from a model of the hu...
This research aims to improve the fundamental understanding of the multiphysics nature of voice prod...
The contribution describes PIV (Particle Image Velocimetry) measurement of airflow in the glottal re...
Master thesis deals with creating numerical model of the human vocal folds. Calculation algorithm in...
The goal of physical modelling of speech is to understand and reproduce the physical phenomena occur...
Producing an accurate model of the human voice has been the goal of researchers for a very long tim...
Physical modeling of phonation intends to explain and reproduce the phenomena occurring during the v...
A new numerical model of the vocal folds is presented based on the well-known two-mass models of the...
Most flow models used in numerical simulation of voiced sound production rely, for the sake of simpl...
A new numerical model of the vocal folds is presented based on the well-known two-mass models of the...