The voice is the primary mode of communication for humans. Because the voice is so important, voice disorders tend to severely diminish quality of life. A better understanding of the physics of voice production can help to improve treatment of voice disorders. For this thesis research a self-oscillating synthetic vocal fold model was developed, compared with previous synthetic vocal fold models, and used to explore the physical effects of augmentation injections on vibration dynamics. The research was conducted in two stages. First, four vocal fold models were evaluated by quantifying onset pressure, frequency, maximum glottal gap, flow rate, and medial surface motion. The newly developed model, differentiated from the other models by the i...
[[abstract]]The human voice is produced by flow-induced self-sustained oscillation of the vocal fold...
Asymmetries of the vocal folds and vocal fold vibration are key features underlying unilateral vocal...
The production of voiced sounds is consequence of the interaction between the respiratory airflow, t...
The influence of injections on the fluid structure interactions was evaluated on a deformable life s...
International audienceVoiced sounds involve self-sustained vocal folds oscillations due to the inter...
International audienceAmong vocal fold diseases, the presence of a surface growth is often encounter...
The process of human phonation involves a complex interaction between the physical domains of struct...
An experimental setup and human vocal folds replica able to produce self-sustained oscillations are ...
From infancy to old age, humans depend on their ability to voice speech in order to effectively comm...
Assuming symmetry of self-oscillations, a half physical model of the vocal folds was made. Working p...
International audienceThe involvement of the ventricular folds is often observed in human phonation ...
Finite-element modeling of self-sustained vocal fold oscillations during voice production has mostly...
Ex-vivo hemilarynx experiments allow the visualization and quantification of three-dimensional dynam...
Complementary physical and computational models were developed and studied in order to investigate t...
Abstract Human vocal folds are highly deformable non-linear oscillators. During phonation, they stre...
[[abstract]]The human voice is produced by flow-induced self-sustained oscillation of the vocal fold...
Asymmetries of the vocal folds and vocal fold vibration are key features underlying unilateral vocal...
The production of voiced sounds is consequence of the interaction between the respiratory airflow, t...
The influence of injections on the fluid structure interactions was evaluated on a deformable life s...
International audienceVoiced sounds involve self-sustained vocal folds oscillations due to the inter...
International audienceAmong vocal fold diseases, the presence of a surface growth is often encounter...
The process of human phonation involves a complex interaction between the physical domains of struct...
An experimental setup and human vocal folds replica able to produce self-sustained oscillations are ...
From infancy to old age, humans depend on their ability to voice speech in order to effectively comm...
Assuming symmetry of self-oscillations, a half physical model of the vocal folds was made. Working p...
International audienceThe involvement of the ventricular folds is often observed in human phonation ...
Finite-element modeling of self-sustained vocal fold oscillations during voice production has mostly...
Ex-vivo hemilarynx experiments allow the visualization and quantification of three-dimensional dynam...
Complementary physical and computational models were developed and studied in order to investigate t...
Abstract Human vocal folds are highly deformable non-linear oscillators. During phonation, they stre...
[[abstract]]The human voice is produced by flow-induced self-sustained oscillation of the vocal fold...
Asymmetries of the vocal folds and vocal fold vibration are key features underlying unilateral vocal...
The production of voiced sounds is consequence of the interaction between the respiratory airflow, t...