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P. Sidlof, S. Zörner, A. Hüppe:
"Numerical simulation of flow-induced sound in human voice production";
Vortrag: Parallel Computational Fluid Dynamics, Changsha, Hunan, China; 20.05.2013 - 24.05.2013; in: "Procedia Engineering", Procedia Engineering / Elsevier Ltd., 61 / 0 (2013), ISSN: 1877-7058; S. 333 - 340.

Abstract The aeroacoustic mechanisms in human voice production are complex coupled processes, which are not fully understood until now. The paper presents a hybrid numerical approach to the solution of the acoustic field in human vocal tract, when the fluid flow is first solved by a dedicated \{CFD\} solver on a fine computational mesh covering the larynx. Subsequently, the acoustic sources and propagation of the sound waves are calculated by Lighthill's analogy or acoustic perturbation equations on a coarse mesh covering the whole vocal tract including radiation region. The \{CFD\} simulation was run in parallel on a \{SGI\} Altix \{UV\} shared-memory supercomputer; strong and weak parallel performance was tested for up to 50 computational cores. The spectra of the radiated sound for two vowels/i/and/u/evaluated from the acoustic simulation show good agreement with the formant frequencies known from human subjects.

aeroacoustics

http://dx.doi.org/10.1016/j.proeng.2013.08.024