This paper collects the state of the art and the tremendous progress that has been made in
hybrid modeling of aeroacoustic sound. Hybrid modeling is defined such that flow and …

We provide a selective review of recent progress in the analysis of several physiological and
physiologically inspired fluid-structure interaction problems, our aim being to explain the …

A new sharp-interface immersed boundary method based approach for the computation of
low-Mach number flow-induced sound around complex geometries is described. The …

For the clinical analysis of underlying mechanisms of voice disorders, we developed a
numerical aeroacoustic larynx model, called simVoice, that mimics commonly observed …

The flow-induced sound sources of human voice production are investigated based on a
validated voice model. This analysis is performed using a hybrid aeroacoustic workflow …

Within the last decade, very sophisticated numerical methods for the iterative and partitioned
solution of fluid–structure interaction problems have been developed that allow for high …

A hybrid aeroacoustic approach was developed for the efficient numerical computation of
human phonation. In the first step, an incompressible flow simulation on a three-dimensional …

Numerical modeling of the human phonatory process has become more and more in focus
during the last two decades. The increase in computational power and the use of high …

In an aeroacoustic simulation of human voice production, the effect of the sub-grid scale
(SGS) model on the acoustic spectrum was investigated. In the first step, incompressible …

An immersed-boundary method based flow solver coupled with a finite-element solid
dynamics solver is employed in order to conduct direct-numerical simulations of phonatory …