Aug 24, 2017 · Abstract. A balance between the simplicity and speed of lumped-element vocal fold models and the completeness and complexity of.

A Fast Robust 1D Flow Model for a Self-Oscillating Coupled 2D FEM Vocal Fold Simulation. A Vasudevan, V Zappi, P Anderson, S Fels. INTERSPEECH, 3482-3486 ...

Arvind Vasudevan, Victor Zappi, Peter Anderson, Sidney S. Fels : A Fast Robust 1D Flow Model for a Self-Oscillating Coupled 2D FEM Vocal Fold Simulation.

A one-dimensional (1D) unsteady and viscous flow model that is derived from the momentum and mass conservation equations is described.

A Fast Robust 1D Flow Model for a Self-Oscillating Coupled 2D FEM Vocal Fold Simulation. Journal: Interspeech [Conference]. DOI: https://doi.org/10.21437 ...

We present a novel reduced-order glottal airflow model that can be coupled with the three-dimensional (3D) solid mechanics model of the vocal fold tissue.

The 1D flow model is evaluated in both of these setups and shown to have robust performance. Therefore, it provides a fast simulation tool that is superior to ...

Feb 3, 2021 · The enhanced 1D flow model provides a fast simulation tool that is superior to the previous 1D models and applies in the FSI simulation of ...

The 1D flow model is evaluated in both of these setups and shown to have robust performance. Therefore, it provides a fast simulation tool that is superior to ...

Apr 15, 2021 · A fast robust 1D flow model for a self-oscillating coupled 2D FEM vocal fold simulation. ,” in. Proceedings of Interspeech 2017. (. 2017. ), p ...