The contribution describes an especially developed complex physical model of the voice production that consists of simplified models of the trachea, the self-oscillating vocal folds and the vocal tract with acoustical spaces that correspond to the vowel /a:/. The presented measurement set-up enables to use the PIV method for visualization of the airflow-pattern and synchronous vocal fold vibration visualization, acoustic and pressure measurements. Some preliminary results are presented as well
Insight into vocal fold and lip oscillation mechanisms is important for the understanding of phonati...
In the paper numerical results from a mathematical model of human vocal folds are compared with expe...
The goal of physical modelling of speech is to understand and reproduce the physical phenomena occur...
The contribution describes PIV (Particle Image Velocimetry) measurement of airflow in the glottal re...
A new mechanical model of vocal folds was developed in cooperation with Ecole Nationale Supérieure d...
Assuming symmetry of self-oscillations, a half physical model of the vocal folds was made. Working p...
This thesis deals with the physical modeling of the parts of the voice organ relevant for voice gene...
The presented dissertation thesis deals with a simulation of the human phonation in terms of latest ...
In this paper, we present an attempt to describe ow past the glottis and to predict the pressure ins...
International audienceIn the paper a mathematical model of airflow in human vocal folds is presented...
The study provides information on experimental research on a complete 1:1 scaled model of human phon...
The paper presents results of measurements of acoustic and vibratory characteristics of several arti...
Finite element models of male vocal tract for Czech vowel /a/ are analyzed and used for numerical si...
International audienceThe context of this study is the physical modeling of speech production. The o...
The experimental study presents in vitro measurements of phonation characteristics performed on the ...
Insight into vocal fold and lip oscillation mechanisms is important for the understanding of phonati...
In the paper numerical results from a mathematical model of human vocal folds are compared with expe...
The goal of physical modelling of speech is to understand and reproduce the physical phenomena occur...
The contribution describes PIV (Particle Image Velocimetry) measurement of airflow in the glottal re...
A new mechanical model of vocal folds was developed in cooperation with Ecole Nationale Supérieure d...
Assuming symmetry of self-oscillations, a half physical model of the vocal folds was made. Working p...
This thesis deals with the physical modeling of the parts of the voice organ relevant for voice gene...
The presented dissertation thesis deals with a simulation of the human phonation in terms of latest ...
In this paper, we present an attempt to describe ow past the glottis and to predict the pressure ins...
International audienceIn the paper a mathematical model of airflow in human vocal folds is presented...
The study provides information on experimental research on a complete 1:1 scaled model of human phon...
The paper presents results of measurements of acoustic and vibratory characteristics of several arti...
Finite element models of male vocal tract for Czech vowel /a/ are analyzed and used for numerical si...
International audienceThe context of this study is the physical modeling of speech production. The o...
The experimental study presents in vitro measurements of phonation characteristics performed on the ...
Insight into vocal fold and lip oscillation mechanisms is important for the understanding of phonati...
In the paper numerical results from a mathematical model of human vocal folds are compared with expe...
The goal of physical modelling of speech is to understand and reproduce the physical phenomena occur...