A low-dimensional physically oriented model of the glottal source is discussed. The model relies on a lumped mechano-aerodynamic scheme based on the mass-spring paradigm. The vocal folds are represented by a mechanical resonator plus a delay line which takes into account the vertical phase differences. First, a simple flow model based on Bernoulli\u2019s law is assumed, and the properties of the system are discussed. The class of models under consideration is shown to be able to reproduce a broad range of phonation styles, and to provide interesting control properties. Secondly, an extended flow model is introduced with the aim of reproducing realistic glottal source waveforms obtained by inverse filtering. The new flow model is based on a ...
A physically-informed glottal model is proposed; some physical information is retained in a linear b...
International audienceSource-filter paradigm is one of the most common approaches used by the scient...
We describe a new method to estimate vocal cord dynamics using a parametric model of glottis movemen...
The purpose of this study is to explore the possibility for physically based mathematical models of ...
A waveform adaptive physical model of the glottal source is proposed. The model relies on a lumped m...
This paper studies the use of glottal inverse filtering together with a biomechanical model of the v...
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...
International audienceThe acoustic properties of a recently proposed two-mass model for vocal-fold o...
This work presents a low-dimensional physical model of the glottis in which a 2-D fold displacement ...
This work presents a low-dimensional physical model of the glottis in which a 2-D fold displacement ...
Glottal waveform models have long been employed in improving the quality of speech synthesis. This p...
Abstract—An automatic technique for estimating and modeling the glottal flow derivative source wavef...
A lumped physical model of the glottal source is presented. Vocal folds are described as single mass...
The reproduction of voiced sounds by physical modeling is addressed. A major focus is put on the pos...
A physically-informed glottal model is proposed; some physical information is retained in a linear b...
International audienceSource-filter paradigm is one of the most common approaches used by the scient...
We describe a new method to estimate vocal cord dynamics using a parametric model of glottis movemen...
The purpose of this study is to explore the possibility for physically based mathematical models of ...
A waveform adaptive physical model of the glottal source is proposed. The model relies on a lumped m...
This paper studies the use of glottal inverse filtering together with a biomechanical model of the v...
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...
International audienceThe acoustic properties of a recently proposed two-mass model for vocal-fold o...
This work presents a low-dimensional physical model of the glottis in which a 2-D fold displacement ...
This work presents a low-dimensional physical model of the glottis in which a 2-D fold displacement ...
Glottal waveform models have long been employed in improving the quality of speech synthesis. This p...
Abstract—An automatic technique for estimating and modeling the glottal flow derivative source wavef...
A lumped physical model of the glottal source is presented. Vocal folds are described as single mass...
The reproduction of voiced sounds by physical modeling is addressed. A major focus is put on the pos...
A physically-informed glottal model is proposed; some physical information is retained in a linear b...
International audienceSource-filter paradigm is one of the most common approaches used by the scient...
We describe a new method to estimate vocal cord dynamics using a parametric model of glottis movemen...