Synthetic, self-oscillating vocal fold models for voice production research
SL Thomson - The Journal of the Acoustical Society of America, 2024 - pubs.aip.org
Sound for the human voice is produced by vocal fold flow-induced vibration and involves a
complex coupling between flow dynamics, tissue motion, and acoustics. Over the past three …
complex coupling between flow dynamics, tissue motion, and acoustics. Over the past three …
Comparison of one-dimensional and three-dimensional glottal flow models in left-right asymmetric vocal fold conditions
While the glottal flow is often simplified as one-dimensional (1D) in computational models of
phonation to reduce computational costs, the 1D flow model has not been validated in left …
phonation to reduce computational costs, the 1D flow model has not been validated in left …
[HTML][HTML] Fluid-Structure-Acoustic coupling analysis for external laminar and turbulent fluid flows
Controlling noise pollution is one of the most crucial parameters in various industries. The
use of elastic plates has a substantial impact on noise pollution control and associated …
use of elastic plates has a substantial impact on noise pollution control and associated …
Effects of airflow in constricted vocal tracts on vowel production of the reed-type artificial vocal fold
2. Materials and methods 2.1. Artificial vocal fold and vocal tracts The artificial vocal fold
consists of a reed and its retainer placed in a cylindrical pressure chamber (Fig. 1). By …
consists of a reed and its retainer placed in a cylindrical pressure chamber (Fig. 1). By …
[PDF][PDF] A Relationship Between Vocal Fold Vibration and Droplet Production
While some aerosol droplets causing airborne transmissions are argued to be produced by
vocal fold vibrations, the detailed production mechanisms were unclear due to the difficulty …
vocal fold vibrations, the detailed production mechanisms were unclear due to the difficulty …
管楽器の空力音響解析
吉永司, 横山博史 - フルードパワーシステム, 2022 - jstage.jst.go.jp
豊橋技術科学大学〒 441-8580 愛知県豊橋市天伯町雲雀ケ丘 1-1 E-mail: yoshinaga@ me. tut.
ac. jp 2018 年大阪大学大学院基礎工学系研究科博士後期課程修了. 同大学特任助教を経て …
ac. jp 2018 年大阪大学大学院基礎工学系研究科博士後期課程修了. 同大学特任助教を経て …