<i>Source-filter interaction in an aeroelastic-aeroacoustic simulation of phonation</i>

Simulations of phonation are presented which assess the degree to which the vocal tract resonator affects sound production by the flow-induced vibration of the vocal folds. The computations are performed with the iFEM aeroelastic-aeroacoustic approach. For each case of larynx geometry and biomechanical properties, four simulations are run, one each for a vocal tract shape corresponding to the vowels (/a/, /i/ , /u/, and /ə/). To quantify how differences in vocal tract acoustic loading affects the source behavior, comparisons are made for the following quantities: vocal fold vibration patterns, glottal exit volume flow, glottal jet speed, vocal fold drag, work done by built-up pressure, and work done by acoustic resistance.