Add to ORKGNational audienceThe quality of numeric models of phonation is strongly dependent on the accuracy of geometric and elastic tissue data because of the inhomogeneous and anisotropic nature of these structures. The dynamic elasticity of the vocal folds can be assessed in vivo and in vitro with a linear skin rheometer. This method has been applied in parallel and normal to the vocal fold surface of excised larynges. The data was collected in several directions and for two layers of the tissues which provides a base for a finite-element model. The results of the measurements are presented and consequences for the simulations are discussed
In this paper, the development of a large-displacement large-strain 3-D finite element model of the ...
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...
A 3D finite element (FE) fully parametric model of the human larynx was developed and used for nume...
International audienceThe biomechanical parameters of the multiple tissue layer structure of the voc...
International audienceThe biomechanical parameters of the multiple tissue layer structure of the voc...
International audienceThe biomechanical parameters of the multiple tissue layer structure of the voc...
International audienceThe biomechanical parameters of the multiple tissue layer structure of the voc...
International audienceThe biomechanical parameters of the multiple tissue layer structure of the voc...
The reconstruction of the video-kymographic records from the numerical simulation of the vocal fold ...
The article describes the design of a 3D finite element (FE) model of real human vocal folds in a de...
The article describes the vollumetric 3D FE model of real human vocal folds in a defined phonation p...
A 3D finite element model of the human larynx including the vocal folds was developed. The model ena...
The study presents results of in vitro measurements of voicing performed on the developed artificial...
During phonation, the vocal folds collision during the glottal closure is considered to be a risk fa...
In this paper, the development of a large-displacement large-strain 3-D finite element model of the ...
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...
A 3D finite element (FE) fully parametric model of the human larynx was developed and used for nume...
International audienceThe biomechanical parameters of the multiple tissue layer structure of the voc...
International audienceThe biomechanical parameters of the multiple tissue layer structure of the voc...
International audienceThe biomechanical parameters of the multiple tissue layer structure of the voc...
International audienceThe biomechanical parameters of the multiple tissue layer structure of the voc...
International audienceThe biomechanical parameters of the multiple tissue layer structure of the voc...
The reconstruction of the video-kymographic records from the numerical simulation of the vocal fold ...
The article describes the design of a 3D finite element (FE) model of real human vocal folds in a de...
The article describes the vollumetric 3D FE model of real human vocal folds in a defined phonation p...
A 3D finite element model of the human larynx including the vocal folds was developed. The model ena...
The study presents results of in vitro measurements of voicing performed on the developed artificial...
During phonation, the vocal folds collision during the glottal closure is considered to be a risk fa...
In this paper, the development of a large-displacement large-strain 3-D finite element model of the ...
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...