Add to ORKGAcoustic resonance characteristics of 3D human vocal tract model without and with nasal and\nparanasal cavities were computed. Nasal cavities (NC) form the side branches of the human vocal tract and exhibit antiresonance and resonance properties which influence the produced voice quality. Developed FE models of acoustic spaces of nasal and vocal tract for vowel /a:/ are used to study the influence of (NC) on phonation. Acoustics frequency-modal characteristics are studied by modal analysis and numerical simulation of acoustic signals in time domain is performed by transient analysis of the FE models
Two 3D finite element (FE) models were constructed, based on CT measurements of a subject phonating ...
Finite element models of male vocal tract for Czech vowel /a/ are analyzed and used for numerical si...
Human speech production is a complex process, involving neuromuscular control signals, the effects o...
Nasal cavities (NC) form the side branches of the human vocal tract and exhibit antiresonance and re...
Acoustic resonance characteristics of 3D human vocal tract model with nasal and paranasal cavities w...
The paper is focused on experimental verification of 3D modeling of the acoustic characteristics of ...
The paper deals with use of the transfer matrix method to determine acoustic characteristics of the ...
The 3D FE models of the nasal cavities and adult female vocal tract were developed from computer tom...
This paper presents the transfer function approach in order to determine the acoustic resonant frequ...
The following master thesis deals with creating a computational model for acoustic wave distribution...
The three-dimensional (3D) finite element (FE) model of the human vocal tract was constructed, base...
Figure 1: A slice trough the FE model of the vocal tract for the vowel /a / including an acoustic sp...
International audienceIn this paper, we describe a comparison of the acoustic characteristics of one...
The paper is focused on experiment of investigation of acoustics properties of 3D simplified model o...
Results of a voice numerical simulation using finite element model of acoustic spaces corresponding ...
Two 3D finite element (FE) models were constructed, based on CT measurements of a subject phonating ...
Finite element models of male vocal tract for Czech vowel /a/ are analyzed and used for numerical si...
Human speech production is a complex process, involving neuromuscular control signals, the effects o...
Nasal cavities (NC) form the side branches of the human vocal tract and exhibit antiresonance and re...
Acoustic resonance characteristics of 3D human vocal tract model with nasal and paranasal cavities w...
The paper is focused on experimental verification of 3D modeling of the acoustic characteristics of ...
The paper deals with use of the transfer matrix method to determine acoustic characteristics of the ...
The 3D FE models of the nasal cavities and adult female vocal tract were developed from computer tom...
This paper presents the transfer function approach in order to determine the acoustic resonant frequ...
The following master thesis deals with creating a computational model for acoustic wave distribution...
The three-dimensional (3D) finite element (FE) model of the human vocal tract was constructed, base...
Figure 1: A slice trough the FE model of the vocal tract for the vowel /a / including an acoustic sp...
International audienceIn this paper, we describe a comparison of the acoustic characteristics of one...
The paper is focused on experiment of investigation of acoustics properties of 3D simplified model o...
Results of a voice numerical simulation using finite element model of acoustic spaces corresponding ...
Two 3D finite element (FE) models were constructed, based on CT measurements of a subject phonating ...
Finite element models of male vocal tract for Czech vowel /a/ are analyzed and used for numerical si...
Human speech production is a complex process, involving neuromuscular control signals, the effects o...