the pressure and velocity fields in coronal plane along the vibrating vocal folds were studied using a finite element mathematical model. The shapes of the vocal folds were specified according to data measured on excised human larynges in phonation position. The mathematical model of the flow is based on 2D incompressible Navier-Stokes equations adapted to deal with the time-variable shape of the domain, caused by vocal fold vibration. The numerical simulations allow to observe closely various flow features related to phonation - flow separation in the glottis, Coanda effect or vortex shedding
National audienceThe possibility of having an asymmetrical flow through the glottis (Coanda effect) ...
The airflow velocities and pressures are calculated from a three-dimensional model of the human lary...
The presented thesis is involved in the biomechanics of phonation. The aim of the thesis is to set a...
International audienceIn the paper a mathematical model of airflow in human vocal folds is presented...
In the paper a mathematical model of airflow in human vocal folds is presented. The geometry of the ...
Finite-element modeling of self-sustained vocal fold oscillations during voice production has mostly...
A two-dimensional (2D) finite element (FE) model of the fluid-structure-acoustic interaction during ...
The velocity and pressure fields in the proximity of the vocal folds were studied by means of numeri...
Spatial air pressures generated in human vocal tract by vibrating vocal folds present sound sources ...
This paper presents experimental and computational data on the coherent turbulent structures in fl...
The developed two-dimensional finite element model of the flow-induced self-oscillation of the human...
International audienceThe involvement of the ventricular folds is often observed in human phonation ...
The purpose of the study is to determine whether a turbulence model in fluid flow calculation affect...
This research is supported by Grant Agency of the Czech Republic by the project No. 16- 01246S.Numer...
Abstract At the beginning of a phonation cycle the glottis is closed and the vocal folds are stretch...
National audienceThe possibility of having an asymmetrical flow through the glottis (Coanda effect) ...
The airflow velocities and pressures are calculated from a three-dimensional model of the human lary...
The presented thesis is involved in the biomechanics of phonation. The aim of the thesis is to set a...
International audienceIn the paper a mathematical model of airflow in human vocal folds is presented...
In the paper a mathematical model of airflow in human vocal folds is presented. The geometry of the ...
Finite-element modeling of self-sustained vocal fold oscillations during voice production has mostly...
A two-dimensional (2D) finite element (FE) model of the fluid-structure-acoustic interaction during ...
The velocity and pressure fields in the proximity of the vocal folds were studied by means of numeri...
Spatial air pressures generated in human vocal tract by vibrating vocal folds present sound sources ...
This paper presents experimental and computational data on the coherent turbulent structures in fl...
The developed two-dimensional finite element model of the flow-induced self-oscillation of the human...
International audienceThe involvement of the ventricular folds is often observed in human phonation ...
The purpose of the study is to determine whether a turbulence model in fluid flow calculation affect...
This research is supported by Grant Agency of the Czech Republic by the project No. 16- 01246S.Numer...
Abstract At the beginning of a phonation cycle the glottis is closed and the vocal folds are stretch...
National audienceThe possibility of having an asymmetrical flow through the glottis (Coanda effect) ...
The airflow velocities and pressures are calculated from a three-dimensional model of the human lary...
The presented thesis is involved in the biomechanics of phonation. The aim of the thesis is to set a...