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The three-dimensional (3D) finite element (FE) model of the human vocal tract was constructed, based on CT measurements of a subject phonating on [a:]. A special attentio [...]
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The reconstruction of the video-kymographic records from the numerical simulation of the vocal fold vibration is used for prediction of the type of vocal fold damaged. Th [...]
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The study presents results of in vitro measurements of voicing performed on the developed artificial larynx based on the CT images of human larynx taken during phonation. [...]
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Finite element (FE) models of real male vocal and nasal tract corresponding to the Czech vowels / i / and / u / are analyzed in this paper. The FE models were designed by [...]
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The influence of piriform sinuses (PS) on the resonance and antiresonance characteristics of the vocal tract is investigated. The change in sizes of PS cavities alters th [...]
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The effects of velopharyngeal insufficiency on acoustic frequency– modal characteristics of human supraglottal spaces are investigated. The finite element model was dev [...]
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The paper deals with use of the transfer matrix method to determine acoustic characteristics of the human vocal tract connected with the nasal tract. The system models th [...]
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The paper is focused on experiment of investigation of acoustics properties of 3D simplified model of human vocal tract for phonation of vowel /a/. The physical model wa [...]
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1D and 3D finite element models of supraglottal tract designed for Czech vowel / a / are analyzed. Performed modal analysis is focused on investigation of the influence o [...]
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The model of the human vocal fold is created with transfer matrix method. The model is made from 32 cylindric or conic elements for Czech vowel /u/. The calculation is ca [...]
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