International audienceThe acoustic properties of a recently proposed two-mass model for vocal-fold oscillations are analysed in terms of a set of acoustic parameters borrowed from phenomenological glottal-flow signal models. The analysed vocal-fold model includes a novel description of flow separation within the glottal channel at a point whose position may vary in time when the channel adopts a divergent configuration. It also assumes a vertically symmetrical glottal structure, a hypothesis that does not hinder reproduction of glottal-flow signals and that reduces the number of control parameters of the dynamical system governing vocal-fold oscillations. Measuring the sensitivity of acoustic parameters to the variation of the model control...
Copyright (2010) Acoustical Society of America. This article may be downloaded for personal use only...
peer reviewedDuring voiced speech, vocal folds interact with the vocal tract acoustics. The resultin...
In voiced speech, the source of sound is the vibrations of the vocal folds within the larynx. The st...
We present a study of the acoustic source parameters describing glottal flow waveforms generated by ...
This paper presents a novel ``pseudo-one-mass model'' of the vocal folds, which is derived from a pr...
In this paper the sensitivity of the two-mass model with acoustical coupling to the model input-para...
We propose a two-mass model for the vocal folds. The aerodynamic force resulting from the air flow t...
A new numerical model of the vocal folds is presented based on the well-known two-mass models of the...
A new numerical model of the vocal folds is presented based on the well-known two-mass models of the...
A computational model for vowel production has been used to simulate rising pitch glides in the time...
In this work, the two-mass model of the human vocal folds is expanded by including the false vocal f...
The production of voice is closely related to the flow of air through the glottis, whose shape is ti...
This study explores the possibility for physical models of the glottis to accurately reproduce targe...
This study explores the possibility for physical models of the glottis to accurately reproduce targe...
In the classical theory of vowel production it is standard to assume linear separability of the voic...
Copyright (2010) Acoustical Society of America. This article may be downloaded for personal use only...
peer reviewedDuring voiced speech, vocal folds interact with the vocal tract acoustics. The resultin...
In voiced speech, the source of sound is the vibrations of the vocal folds within the larynx. The st...
We present a study of the acoustic source parameters describing glottal flow waveforms generated by ...
This paper presents a novel ``pseudo-one-mass model'' of the vocal folds, which is derived from a pr...
In this paper the sensitivity of the two-mass model with acoustical coupling to the model input-para...
We propose a two-mass model for the vocal folds. The aerodynamic force resulting from the air flow t...
A new numerical model of the vocal folds is presented based on the well-known two-mass models of the...
A new numerical model of the vocal folds is presented based on the well-known two-mass models of the...
A computational model for vowel production has been used to simulate rising pitch glides in the time...
In this work, the two-mass model of the human vocal folds is expanded by including the false vocal f...
The production of voice is closely related to the flow of air through the glottis, whose shape is ti...
This study explores the possibility for physical models of the glottis to accurately reproduce targe...
This study explores the possibility for physical models of the glottis to accurately reproduce targe...
In the classical theory of vowel production it is standard to assume linear separability of the voic...
Copyright (2010) Acoustical Society of America. This article may be downloaded for personal use only...
peer reviewedDuring voiced speech, vocal folds interact with the vocal tract acoustics. The resultin...
In voiced speech, the source of sound is the vibrations of the vocal folds within the larynx. The st...