This study shows that the retraction of the tongue tip contributes to the raising of the tongue body in the articulation of high vowels /i/ and /u/ by using qualitative simulations of tongue deformation by using a biomechanical 3D tongue model of Artisynth (Lloyd et al. 2012) and the analysis of tongue configuration in X-ray microbeam data (Westbury 1994). The simulations qualitatively replicated the tongue shapes at the temporal mid-point of /i/ and /u/ in rtMRI data by manipulating the activation values of tongue muscles in Artisynth. The results show that the tongue tip retraction helps to raise the tongue body higher in both /i/ and /u/. In the simulations of /i/, the tongue tip retraction raises the tongue body even without moving the tongue body. The results of x-ray microbeam analysis confirm those findings of simulations. The mixed linear regression model of tongue configurations in the tasks of sentence and paragraph production shows that more tongue tip retraction (a shorter horizontal distance between two anterior tongue pellets) significantly correlates with a higher position of the tongue body (higher one between two posterior tongue pellets) in both /i/ and /u/ and the correlation is stronger in /i/ than in /u/.
This article has two main purposes: (i) to review the placement and function of the tongue and suprahyoid muscles concerning speech articulation, and (ii) as a biomechanical simulation tool to study how those muscles are involved in articulation, to introduce a 3D tongue model distributed by a 3D modelling platform called ArtiSynth. The 3D tongue model can be combined with other structural models to provide the outline of the oral cavity. This article presents examples of muscular simulations for/i/and/ɑ/using the jaw‐hyoid‐tongue model in ArtiSynth.
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