The developed finite element (FE) model of real male vocal tract that corresponds to the Czech vowel /a/ is used for numerical simulation of phonation. The FE model was designed from the magnetic resonance images (MRI) of the subject during phonation. The acoustic signals for the vowel /a/ are simulated using the transient analysis of the FE model in time domain. For excitation of the acoustic supraglottal spaces the intraglottal pressure generated by the aeroelastic model of vocal folds self-oscillations is used. The frequency and time response functions are calculated in front of the mouth
The presented dissertation thesis deals with a simulation of the human phonation in terms of latest ...
In the first part of this bachelor's thesis is a brief summary of the biomechanics of the creation o...
Spatial air pressures generated in human vocal tract by vibrating vocal folds present sound sources ...
Finite element models of male vocal tract for Czech vowel /a/ are analyzed and used for numerical si...
Figure 1: A slice trough the FE model of the vocal tract for the vowel /a / including an acoustic sp...
Finite element (FE) model of the human vocal tract foe Czech vowel /a/ created by magnetic resonance...
Two types FE models of vocal tract are presented. The geometry of supraglottal space, which correspo...
Aproximate finite element models of acoustic spaces corresponding to the human vocal tract for Engli...
Results of a voice numerical simulation using finite element model of acoustic spaces corresponding ...
1D and 3D finite element models of supraglottal tract designed for Czech vowel /a/ are analyzed. Per...
This Master´s thesis deals with use of finite element method for modeling motion and stress of vocal...
The paper is focused on experimental verification of 3D modeling of the acoustic characteristics of ...
The developed two-dimensional finite element model of the flow-induced self-oscillation of the human...
The research part of this bachelor’s thesis consists of a brief introduction to the human respirator...
Acoustic frequency-modal characteristics of six finite element models of a male vocal tract are pres...
The presented dissertation thesis deals with a simulation of the human phonation in terms of latest ...
In the first part of this bachelor's thesis is a brief summary of the biomechanics of the creation o...
Spatial air pressures generated in human vocal tract by vibrating vocal folds present sound sources ...
Finite element models of male vocal tract for Czech vowel /a/ are analyzed and used for numerical si...
Figure 1: A slice trough the FE model of the vocal tract for the vowel /a / including an acoustic sp...
Finite element (FE) model of the human vocal tract foe Czech vowel /a/ created by magnetic resonance...
Two types FE models of vocal tract are presented. The geometry of supraglottal space, which correspo...
Aproximate finite element models of acoustic spaces corresponding to the human vocal tract for Engli...
Results of a voice numerical simulation using finite element model of acoustic spaces corresponding ...
1D and 3D finite element models of supraglottal tract designed for Czech vowel /a/ are analyzed. Per...
This Master´s thesis deals with use of finite element method for modeling motion and stress of vocal...
The paper is focused on experimental verification of 3D modeling of the acoustic characteristics of ...
The developed two-dimensional finite element model of the flow-induced self-oscillation of the human...
The research part of this bachelor’s thesis consists of a brief introduction to the human respirator...
Acoustic frequency-modal characteristics of six finite element models of a male vocal tract are pres...
The presented dissertation thesis deals with a simulation of the human phonation in terms of latest ...
In the first part of this bachelor's thesis is a brief summary of the biomechanics of the creation o...
Spatial air pressures generated in human vocal tract by vibrating vocal folds present sound sources ...