Glottal waveform models have long been employed in improving the quality of speech synthesis. This paper presents a new approach for modeling the glottal flow. The model is based on three control volumes that strike a one-mass and two-springs system sequentially and generate a glottal pulse. The first, second and third control volumes represent the opening, closing and closed phases of the vocal folds, respec-tively. The masses of the three control volumes and the size of the first one are the four parameters that define the shape, pitch and amplitude of the glottal pulse. The model may be viewed as parametric approach governed by second order differential equations rather than analytical functions and is very flexible for designing a glott...
Abstract—An automatic technique for estimating and modeling the glottal flow derivative source wavef...
In this paper we present results of calculations derived in an earlier paper. These results are illu...
In this paper we present results of calculations derived in an earlier paper. These results are illu...
The purpose of this study is to explore the possibility for physically based mathematical models of ...
International audienceThe acoustic properties of a recently proposed two-mass model for vocal-fold o...
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 low-dimensional physically oriented model of the glottal source is discussed. The model relies on ...
A lumped physical model of the glottal source is presented. Vocal folds are described as single mass...
The two-mass model is very often presented as a simple but efficient model quite well adapted for th...
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...
This paper studies the use of glottal inverse filtering together with a biomechanical model of the v...
A glottal model based on physical constraints is proposed. The model describes the vocal fold as a s...
A waveform adaptive physical model of the glottal source is proposed. The model relies on a lumped m...
Abstract—An automatic technique for estimating and modeling the glottal flow derivative source wavef...
In this paper we present results of calculations derived in an earlier paper. These results are illu...
In this paper we present results of calculations derived in an earlier paper. These results are illu...
The purpose of this study is to explore the possibility for physically based mathematical models of ...
International audienceThe acoustic properties of a recently proposed two-mass model for vocal-fold o...
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 low-dimensional physically oriented model of the glottal source is discussed. The model relies on ...
A lumped physical model of the glottal source is presented. Vocal folds are described as single mass...
The two-mass model is very often presented as a simple but efficient model quite well adapted for th...
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...
This paper studies the use of glottal inverse filtering together with a biomechanical model of the v...
A glottal model based on physical constraints is proposed. The model describes the vocal fold as a s...
A waveform adaptive physical model of the glottal source is proposed. The model relies on a lumped m...
Abstract—An automatic technique for estimating and modeling the glottal flow derivative source wavef...
In this paper we present results of calculations derived in an earlier paper. These results are illu...
In this paper we present results of calculations derived in an earlier paper. These results are illu...