Master´s thesis deals with creating planar computational model of human folds, involving fluid-structure interaction. With this model, the influence of changes in vocal folds tissue layers (stiffness, thickness) and their effects on the videokymograph image are studied. Analysis of the results also deals with the evaluation of pressure at selected points below, between and above the vocal folds. The results indicate a possible similarity with the behavior of human vocal folds with pathology. Background research of vocal folds function, an overview of vocal folds pathology and summary of computational models are included
This research is supported by Grant Agency of the Czech Republic by the project No. 16- 01246S.Numer...
Finite-element modeling of self-sustained vocal fold oscillations during voice production has mostly...
The presented thesis is involved in the biomechanics of phonation. The aim of the thesis is to set a...
This Master´s thesis deals with use of finite element method for modeling motion and stress of vocal...
This master‘s thesis deals with computational modelling of human vocal folds in phonation position u...
This doctoral thesis focuses on computational modelling of human vocal folds and vocal tract functio...
The reconstruction of the video-kymographic records from the numerical simulation of the vocal fold ...
A two-dimensional (2D) finite element (FE) model of the fluid-structure-acoustic interaction during ...
International audienceThe biomechanical parameters of the multiple tissue layer structure of the voc...
During phonation, the vocal folds collision during the glottal closure is considered to be a risk fa...
Master thesis deals with creating numerical model of the human vocal folds. Calculation algorithm in...
Vocal fold vibration has been extensively investigated using numerical simulation through the use of...
The present article aimed at constructing a canonical geometry of the human vocal fold (VF) from sub...
This theses focuses on a research of existing material and geometry models. Its effort is to gather ...
The present article aimed at constructing a canonical geometry of the human vocal fold (VF) from sub...
This research is supported by Grant Agency of the Czech Republic by the project No. 16- 01246S.Numer...
Finite-element modeling of self-sustained vocal fold oscillations during voice production has mostly...
The presented thesis is involved in the biomechanics of phonation. The aim of the thesis is to set a...
This Master´s thesis deals with use of finite element method for modeling motion and stress of vocal...
This master‘s thesis deals with computational modelling of human vocal folds in phonation position u...
This doctoral thesis focuses on computational modelling of human vocal folds and vocal tract functio...
The reconstruction of the video-kymographic records from the numerical simulation of the vocal fold ...
A two-dimensional (2D) finite element (FE) model of the fluid-structure-acoustic interaction during ...
International audienceThe biomechanical parameters of the multiple tissue layer structure of the voc...
During phonation, the vocal folds collision during the glottal closure is considered to be a risk fa...
Master thesis deals with creating numerical model of the human vocal folds. Calculation algorithm in...
Vocal fold vibration has been extensively investigated using numerical simulation through the use of...
The present article aimed at constructing a canonical geometry of the human vocal fold (VF) from sub...
This theses focuses on a research of existing material and geometry models. Its effort is to gather ...
The present article aimed at constructing a canonical geometry of the human vocal fold (VF) from sub...
This research is supported by Grant Agency of the Czech Republic by the project No. 16- 01246S.Numer...
Finite-element modeling of self-sustained vocal fold oscillations during voice production has mostly...
The presented thesis is involved in the biomechanics of phonation. The aim of the thesis is to set a...