论文信息 - Visualization of Hypopharyngeal Cavities and Vocal-T ract Acoustic Modeling

Visualization of Hypopharyngeal Cavities and Vocal-T ract Acoustic Modeling

The hypopharyngeal cavities constitute a bottom part of the vocal tract near the larynx consisting of the supraglottic laryngeal cavity and the bilateral cavities of the piriform fossa. Visualization of those cavities with custom magnetic resonance imaging techniques reveals that during speech the laryngeal cavity takes a form of a long-neck flask and the piriform fossa a goblet of varying shapes: the former diminishes greatly in whispering and the latter disappears in deep inhalation. Our previous studies based on MRI have indicated that those cavities exert significant acoustic effects at higher frequency spectra. In this study, acoustic experiments with MRI-based mechanical vocal-tract models were conducted for male and female vocal tracts with the results that acoustic effects of those cavities determine frequency spectra above 2.5 kHz, giving rise to peaks and zeros. Those findings led us to propose an acoustic model of vowel production with three components: voice source, vocal-tract proper, and hypopharyngeal cavities. This model provides effective means in controlling voice quality and for expressing individual vocal characteristics.

[1] J Sundberg,et al. Formant structure and articulation of spoken and sung vowels. , 1970, Folia phoniatrica.

[2] J. Dang,et al. Acoustic characteristics of the human paranasal sinuses derived from transmission characteristic measurement and morphological observation. , 1996, The Journal of the Acoustical Society of America.

[3] K. Honda,et al. Cyclicity of laryngeal cavity resonance due to vocal fold vibration. , 2006, The Journal of the Acoustical Society of America.

[4] Gunnar Fant,et al. Acoustic Theory Of Speech Production , 1960 .

[5] K. Honda,et al. An experimental study of acoustic characteristics of hypopharyngeal cavities using vocal tract solid models , 2005 .

[6] Keisuke Kinoshita,et al. Measurement of cricothyroid articulation using high-resolution MRI and 3d pattern matching , 2005, MAVEBA.

[7] K. Honda,et al. Deformation of the hypopharyngeal cavities due to F0 changes and its acoustic effects , 2008 .

[8] Kiyoshi Honda,et al. Acoustic roles of the laryngeal cavity in vocal tract resonance. , 2006, The Journal of the Acoustical Society of America.

[9] Kiyoshi Honda,et al. Individual variation of the hypopharyngeal cavities and its acoustic effects , 2005 .

[10] T. Chiba. The vowel, its nature and structure , 1958 .

[11] Shinobu Masaki,et al. A bone-conduction system for auditory stimulation in MRI , 2007 .