International audienceAn in-vitro testbed was designed to study the vibromechanical behaviour of biomimetic and extensible vocal folds. The paper describes the several steps of its conception. It consists of a deformable laryngeal envelope in which stretchable vocal-fold replicas of adjustable material and structural properties can be inserted for testing. The folds are able to oscillate for a wide range of aerodynamic conditions and material elongations
To improve the voice quality of laryngectomised patients, a voice-producing element has been develop...
Abstract—To improve the voice quality of laryngectomised pa-tients, a voice-producing element has be...
The process of human phonation involves a complex interaction between the physical domains of struct...
International audienceTo reproduce phonation in vitro, vocal-fold testbeds have been refined over th...
International audienceIn order to make progress on physical understanding of speech, a testbed was d...
Abstract Human vocal folds are highly deformable non-linear oscillators. During phonation, they stre...
International audienceIn order to test the relevance and accuracy of theoretical models for speech p...
This work focuses on a physical model of the human larynx that replicates its main components and fu...
The paper presents experimental investigation of aerodynamic shape of the vocal folds measured in a ...
International audienceThe vocal fold vibration, and hence acoustic source properties of voiced speec...
The human vocal folds are subjected to complex dynamic biomechanical stimulation during phonation. T...
Voice disorders can highly disrupt the personal, social and professional life of patients. The resto...
The report presents results from measurements of acoustic and vibratory characteristics of six origi...
International audienceWe have tested a theoretical model of vocal folds applied to pathological cond...
International audienceVoiced sounds involve self-sustained vocal folds oscillations due to the inter...
To improve the voice quality of laryngectomised patients, a voice-producing element has been develop...
Abstract—To improve the voice quality of laryngectomised pa-tients, a voice-producing element has be...
The process of human phonation involves a complex interaction between the physical domains of struct...
International audienceTo reproduce phonation in vitro, vocal-fold testbeds have been refined over th...
International audienceIn order to make progress on physical understanding of speech, a testbed was d...
Abstract Human vocal folds are highly deformable non-linear oscillators. During phonation, they stre...
International audienceIn order to test the relevance and accuracy of theoretical models for speech p...
This work focuses on a physical model of the human larynx that replicates its main components and fu...
The paper presents experimental investigation of aerodynamic shape of the vocal folds measured in a ...
International audienceThe vocal fold vibration, and hence acoustic source properties of voiced speec...
The human vocal folds are subjected to complex dynamic biomechanical stimulation during phonation. T...
Voice disorders can highly disrupt the personal, social and professional life of patients. The resto...
The report presents results from measurements of acoustic and vibratory characteristics of six origi...
International audienceWe have tested a theoretical model of vocal folds applied to pathological cond...
International audienceVoiced sounds involve self-sustained vocal folds oscillations due to the inter...
To improve the voice quality of laryngectomised patients, a voice-producing element has been develop...
Abstract—To improve the voice quality of laryngectomised pa-tients, a voice-producing element has be...
The process of human phonation involves a complex interaction between the physical domains of struct...