2010
DOI: 10.1121/1.3299201
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Biomechanical modeling of register transitions and the role of vocal tract resonators

Abstract: Biomechanical modeling and bifurcation theory are applied to study phonation onset and register transition. A four-mass body-cover model with a smooth geometry is introduced to reproduce characteristic features of chest and falsetto registers. Sub- and supraglottal resonances are modeled using a wave-reflection model. Simulations for increasing and decreasing subglottal pressure reveal that the phonation onset exhibits amplitude jumps and hysteresis referring to a subcritical Hopf bifurcation. The onset pressu… Show more

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Cited by 49 publications
(65 citation statements)
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“…Acoustically, these differences in harmonic strength were demonstrated by spectral analysis. When viewed by TA levels, distinct areas of large change in F0 value with incremental change in strain could be observed, consistent with the definition of F0 jumps between the chest-like and falsetto-like registers ( Svec et al, 1999;Tokuda et al, 2010). These two F0 clusters variably overlapped in terms of strain: at TA level 0, only two F0 data points were in the higher F0 cluster and there was no overlap in strain [ Fig.…”
Section: Resultsmentioning
confidence: 50%
“…Acoustically, these differences in harmonic strength were demonstrated by spectral analysis. When viewed by TA levels, distinct areas of large change in F0 value with incremental change in strain could be observed, consistent with the definition of F0 jumps between the chest-like and falsetto-like registers ( Svec et al, 1999;Tokuda et al, 2010). These two F0 clusters variably overlapped in terms of strain: at TA level 0, only two F0 data points were in the higher F0 cluster and there was no overlap in strain [ Fig.…”
Section: Resultsmentioning
confidence: 50%
“…This is known as a level II model (Titze, 2008). The past few years has seen theoretical, numerical simulation, and experimental work in the area of level II sourcetract interaction (e.g., Svec et al, 2008;Titze, 2008;Titze et al, 2008;Titze and Morely Worely, 2009;Tokuda et al, 2007;Zañartu et al, 2011). These studies show that sourcetract interaction is an important factor when considering voice register changes in response to changes in laryngeal settings.…”
Section: Discussionmentioning
confidence: 99%
“…Based on such models, register transitions can be realised by simulating a muscle activity that corresponds to the transfer between two distinct sets of parameters [126]. f o gliding has been simulated by several models [88,113,127,128]. Moreover, hysteresis of transitions between chest and falsetto registers and voice instabilities observed during the register transitions in excised larynx experiments [129][130][131] have been also studied [113,128].…”
Section: Modelling Register Transitionsmentioning
confidence: 99%
“…f o gliding has been simulated by several models [88,113,127,128]. Moreover, hysteresis of transitions between chest and falsetto registers and voice instabilities observed during the register transitions in excised larynx experiments [129][130][131] have been also studied [113,128]. The hysteresis implies coexistence of two registers within the same physiological condition of the vocal folds, which is essential for realising an abrupt transition between the registers.…”
Section: Modelling Register Transitionsmentioning
confidence: 99%
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