The impact of glottal area discontinuities on block-type vocal fold models with asymmetric tissue properties | Zendy

David Sommer | Zendy; Byron D. Erath | Zendy; Matías Zañartu | Zendy; Sean D. Peterson | Zendy

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The impact of glottal area discontinuities on block-type vocal fold models with asymmetric tissue properties

Author(s) -

David Sommer,

Byron D. Erath,

Matías Zañartu,

Sean D. Peterson

Publication year - 2013

Publication title -

the journal of the acoustical society of america

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.619

H-Index - 187

eISSN - 1520-8524

pISSN - 0001-4966

DOI - 10.1121/1.4790662

Subject(s) - vocal folds , block (permutation group theory) , classification of discontinuities , acoustics , fold (higher order function) , vibration , aerodynamics , type (biology) , computer science , physics , mathematics , mechanics , geology , mathematical analysis , geometry , anatomy , larynx , biology , paleontology , programming language

Block-type lumped-element models of the vocal folds are widely used for speech investigations due in part to the rich dynamics exhibited over a range of input parameters, particularly for asymmetric tissue properties. While self-consistent in derivation and application, block-type models of the vocal fold masses are inherently susceptible to non-physical aerodynamic loading conditions when vocal fold motion is highly asymmetric. A standard block-type model is compared against two modified models that disallow the non-physiological loading condition. These minor modifications toward a more physiologically relevant aerodynamic model alter the specific vibration regimes and prevalence of chaos, though bifurcations still exist.

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