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Clinical Linguistics & Phonetics Volume 18, 2004 - Issue 6-8
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Article

Functional segments in tongue movement

Maureen Stone Vocal Tract Visualization Lab, University of Maryland Dental School, Baltimore, Maryland, USA
,
Melissa A. Epstein Haskins Lab, Yale University, New Haven, Connecticut, USA
&
Khalil Iskarous Vocal Tract Visualization Lab, University of Maryland Dental School, Baltimore, Maryland, USA
Pages 507-521 | Received 09 Sep 2003, Accepted 17 Oct 2003, Published online: 09 Jul 2009

References

  • ATSUMI, T., and MIYATAKE, T., 1987, Morphometry of the degenerative process in the hypoglossal nerves in amyotrophic lateral sclerosis. Acta Neuropathol ( Berl), 73, 25–31.
  • COKER, C.H., and FUJIMURA, 0., 1966, Model for specification of vocal-tract area function. Journal of the Acoustical Society of America, 40, 1271.
  • DICK, D., OZTURK, C., DOUGLAS, A., MCVEIGH, E., and STONE, M.. Three-dimensional tracking of tongue motion using tagged MRI. Proceedings of the International Society for Magnetic Resonance in Medicine, 8th Scientific Meeting and Exhibition, 1–7 April, 2000, Denver, Colorado.
  • Essoc-ToRcAso, C. and LEVINE, W.S., 2003, A simplified finite element model of the human tongue. Technical Report TR2003-35, ISR, University of Maryland, College Park. FOWLERC, 1980, Coarticulation and theories of extrinsic timing control. Journal of Phonetics, 8, 113–133.
  • HARSHMAN, R.A., LADEFOGED, P., and GOLDSTEIN, L., 1977, Factor analysis of tongue shapes. Journal of the Acoustical Society of America, 62, 693–707.
  • Hardcastle W.J. and Laver J.(Eds), The Handbook of Phonetic Sciences (Oxford: Blackwell), pp. 405–426.
  • LUNDBERG, A., and STONE, M., 1999, Three-dimensional tongue surface reconstruction: practical considerations for ultrasound data. Journal of the Acoustical Society of America, 106, 2858–2867.
  • Hardcastle W.J. and Marchal A.(Eds), Speech Production and Speech Modelling (Dordrecht: Kluwer Academic), pp. 131–149.
  • MAEDA, S., 1991, On articulatory and acoustic variabilities. Journal of Phonetics, 19, 321–331.
  • MERMELSTEIN, P., 1973, Articulatory model for the study of speech production. Journal of the Acoustical Society of America, 53, 1070–1080.
  • MIYAWAKI, K., 1975, A preliminary report on the electromyographic study of the activity of lingual muscles. Annual Bulletin of the Research Institute of Logopedics and Phoniatrics, University of Tokyo, 9, 91–106.
  • Mu, L. and SANDERS, I., 1999, Neuromuscular organization of the canine tongue. The Anatomical Record, 256, 412–424.
  • NARAYANAN, S., ALWAN, A., and RAKER, K., 1997, Towards articulatory-acoustic models for liquid consonants based on MRI and EPG data. Part 1: The laterals. Journal of the Acoustical Society of America, 101, 1064–1077.
  • NOORANI, S.M., 2003, Effect of Simulated Bite Opening on Swallowing Patterns in Normal Adults. MA thesis, University of Maryland Dental School.
  • OHMAN, S.E.G., 1967, Numerical model of coarticulation. Journal of the Acoustical Society of America, 41, 310–320.
  • O'KusKY, J.R., and NORMAN, M.G., 1995, Sudden infant death syndrome: increased number of synapses in the hypoglossal nucleus. Journal of Neuropathology and Experimental Neurology, 54, 627–634.
  • ONG, D., and STONE, M., 1998, Three-dimensional vocal tract shapes in [r] and [I]: a study of MRI, ultrasound, electropalatopgraphy, and acoustics. Phonoscope, 1, 1–14.
  • RUBIN, P., BAER, T., and MERMELSTEIN, P., 1981, An articulatory synthesizer for perceptual research. Journal of the Acoustical Society of America, 70, 321–328.
  • SANGUINETI, V., LABOISSIERE, R., and OSTRY, D.J., 1998, A dynamic biomechanical model for neural control of speech production. Journal of the Acoustical Society of America, 103, 1615–1627.
  • SLUD, E., SMITH, P., STONE, M., and GOLDSTEIN, M., 2002, Principal components representation of the two-dimensional coronal tongue surface. Phonetica, 59, 108-133. SOKOLOFF, A.J., 2000, Locali7ation and contractile properties of intrinsic longitudinal motor units of the rat tongue. Journal of Neurophysiology, 84, 827–835.
  • SOKOLOFF, A.M., 2003, Neuromuscular strategies for human tongue movement. Proceedings of the Fifteenth International Congress of Phonetic Sciences, 3–9 August, Barcelona, Spain, pp. 3181–3183.
  • STONE, M., 1990, A three-dimensional model of tongue movement based on ultrasound and x-ray microbeam data. Journal of the Acoustical Society of America, 87, 2207–2217.
  • STONE, M., and DAVIS, E.P., 1995, A head and transducer support system for making ultrasound images of tongue/jaw movement. Journal of the Acoustical Society of America, 98, 3107–3112.
  • STONE, M., and LUNDBERG, A., 1996, Three-dimensional tongue surface shapes of English consonants and vowels. Journal of the Acoustical Society of America, 99, 3728–3737.
  • STONE, M., DAVIS, E., DOUGLAS, A., NESSAIVER, M., GULLAPALLI, R., LEVINE, W., and LUNDBERG, A., 2001a, Modeling motion of the internal tongue from tagged eine-MRI images. Journal of the Acoustical Society of America, 109, 2974–2982.
  • STONE, M., DAVIS, E., DOUGLAS, A., NESSAIVER, M., GULLAPALLI, R., LEVINE, W., and LUNDBERG, A., 2001b, Modeling tongue surface contours from cine-MRI images. Journal of Speech, Language, and Hearing Research, 44, 1026–1040.
  • STONE, M., GOLDSTEIN, M., and ZHANG, Y., 1997, Principal component analysis of cross-sectional tongue shapes in vowels. Speech Communication, 22, 173–184.
  • STONE, M., PARTHASARATHY, V., ISKAROUS, K., NESSAIVER, M., and PRINCE, J., 2003, Tissue strains and tongue shapes: combining tMRI and ultrasound. Proceedings of the Fifteenth International Congress of Phonetic Sciences, 3–9 August, Barcelona, Spain, pp. 273–276.
  • TAKEMOTO, H., 2001, Morphological analyses of the human tongue musculature for three-dimensional modelling. Journal of Speech and Hearing Research, 44, 95–107.
  • Shaw R.and Bransford J.(Eds), Perceiving, Acting and Knowing: Toward an Ecological Psychology (Hillsdale, NJ: Lawrence Erlbaum Associates), pp. 211–265.
  • WILHELMS-TRICARICO, R., 1995, Physiological modeling of speech production: Methods for modeling soft-tissue articulators. Journal of the Acoustical Society of America, 97, 3085–3098.
  • WOZNIAK, W., and YOUNG, P.A., 1969, Further observations on human hypoglossal nerve. Anatomischer Anzeiger, 125, 203–205.
  • YANG, C.S., and STONE, M., 2002, Dynamic programming method for temporal registration of three-dimensional tongue surface motion from multiple utterances. Speech Communication, 38, 199–207.

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