@article{deb67aaeb547439ba7095c07182f65e5,
title = "Computational aeroacoustics to identify sound sources in the generation of sibilant /s/",
abstract = "A sibilant fricative /s/ is generated when the turbulent jet in the narrow channel between the tongue blade and the hard palate is deflected downwards through the space between the upper and lower incisors and then impinges the space between the lower incisors and the lower lip. The flow eddies in that region become a source of direct aerodynamic sound, which is also diffracted by the speech articulators and radiated outwards. The numerical simulation of these phenomena is complex. The spectrum of an /s/ typically peaks between 4 and 10 kHz, which implies that very fine computational meshes are needed to capture the eddies producing such high frequencies. In this work, a large-scale computation of the aeroacoustics of /s/ has been performed for a realistic vocal tract geometry, resorting to two different acoustic analogies. A stabilized finite element method that acts as a large eddy simulation model has been adopted to solve the flow dynamics. Also, a numerical strategy has been implemented that allows the determination, in a single computational run, of the separate contribution of the sound diffracted by the upper incisors from the overall radiated sound. Results are presented for points located close to the lip opening showing the relative influence of the upper teeth depending on frequency.",
keywords = "Lighthill, computational aeroacoustics, finite elements, fricatives, large eddy simulation",
author = "Arnau Pont and Oriol Guasch and Joan Baiges and Ramon Codina and {van Hirtum}, Annemie",
note = "Funding Information: The authors gratefully acknowledge K. Nozaki (Osaka University) for providing the realistic geometry of sibilant /s/ used in the simulations. The authors also thankfully acknowledge the computer resources, technical expertise, and assis- tance provided by the Red Espa{\~n}ola de Supercomputaci{\'o}n (RES-BSC) and by the Swedish National Infrastructure for Computing (SNIC) at the PDC Centre for High Performance Computing (PDC-HPC). This work has been partially supported by the EU-FET grant EUNISON 308874. Moreover, the first author would also like to thank the Ag{\`e}ncia de Gesti{\'o} d'Ajuts Universitaris i de Recerca for the predoctoral FI grant no. 2015 FI-B 00227. The second author would like to acknowledge the project GENIOVOX (TEC2016-81107-P) and the Secretaria d'Universitats i Recerca del Departament d'Economia i Coneixement (Generalitat de Catalunya) under grant refs. 2014-SGR-0590 and 2016-URL-IR-013. The third author acknowledges the support of the Spanish Government through the Ram{\'o}n y Cajal grant RYC-2015-17367. The fourth author gratefully acknowledges the support received from the Catalan Government through the ICREA Acad{\`e}mia Research Program. The fifth author thanks the support from the ArtSpeech project (ANR-15-CE23-0024). Funding Information: The authors gratefully acknowledge K. Nozaki (Osaka University) for providing the realistic geometry of sibilant /s/ used in the simulations. The authors also thankfully acknowledge the computer resources, technical expertise, and assistance provided by the Red Espa?ola de Supercomputaci?n (RES-BSC) and by the Swedish National Infrastructure for Computing (SNIC) at the PDC Centre for High Performance Computing (PDC-HPC). This work has been partially supported by the EU-FET grant EUNISON 308874. Moreover, the first author would also like to thank the Ag?ncia de Gesti? d'Ajuts Universitaris i de Recerca for the predoctoral FI grant no. 2015 FI-B 00227. The second author would like to acknowledge the project GENIOVOX (TEC2016-81107-P) and the Secretaria d'Universitats i Recerca del Departament d'Economia i Coneixement (Generalitat de Catalunya) under grant refs. 2014-SGR-0590 and 2016-URL-IR-013. The third author acknowledges the support of the Spanish Government through the Ram?n y Cajal grant RYC-2015-17367. The fourth author gratefully acknowledges the support received from the Catalan Government through the ICREA Acad?mia Research Program. The fifth author thanks the support from the ArtSpeech project (ANR-15-CE23-0024). Publisher Copyright: {\textcopyright} 2018 John Wiley & Sons, Ltd.",
year = "2019",
month = jan,
doi = "10.1002/cnm.3153",
language = "English",
volume = "35",
journal = "International Journal for Numerical Methods in Biomedical Engineering",
issn = "2040-7939",
publisher = "Wiley-Blackwell",
number = "1",
}