TY - JOUR
T1 - Modeling laryngeal muscle activation noise for low-order physiological based speech synthesis
AU - Manríquez, Rodrigo
AU - Peterson, Sean D.
AU - Prado, Pavel
AU - Orio, Patricio
AU - Zañartu, Matías
N1 - Publisher Copyright:
Copyright © 2017 ISCA.
PY - 2017
Y1 - 2017
N2 - Physiological-based synthesis using low order lumped-mass models of phonation have been shown to mimic and predict complex physical phenomena observed in normal and pathological speech production, and have received significant attention due to their ability to efficiently perform comprehensive parametric investigations that are cost prohibitive with more advanced computational tools. Even though these numerical models have been shown to be useful research and clinical tools, several physiological aspects of them remain to be explored. One of the key components that has been neglected is the natural fluctuation of the laryngeal muscle activity that affects the configuration of the model parameters. In this study, a physiologically-based laryngeal muscle activation model that accounts for random fluctuations is proposed. The method is expected to improve the ability to model muscle related pathologies, such as muscle tension dysphonia and Parkinson's disease. The mathematical framework and underlying assumptions are described, and the effects of the added random muscle activity is tested in a well-known body-cover model of the vocal folds with acoustic propagation and interaction. Initial simulations illustrate that the random fluctuations in the muscle activity impact the resulting kinematics to varying degrees depending on the laryngeal configuration.
AB - Physiological-based synthesis using low order lumped-mass models of phonation have been shown to mimic and predict complex physical phenomena observed in normal and pathological speech production, and have received significant attention due to their ability to efficiently perform comprehensive parametric investigations that are cost prohibitive with more advanced computational tools. Even though these numerical models have been shown to be useful research and clinical tools, several physiological aspects of them remain to be explored. One of the key components that has been neglected is the natural fluctuation of the laryngeal muscle activity that affects the configuration of the model parameters. In this study, a physiologically-based laryngeal muscle activation model that accounts for random fluctuations is proposed. The method is expected to improve the ability to model muscle related pathologies, such as muscle tension dysphonia and Parkinson's disease. The mathematical framework and underlying assumptions are described, and the effects of the added random muscle activity is tested in a well-known body-cover model of the vocal folds with acoustic propagation and interaction. Initial simulations illustrate that the random fluctuations in the muscle activity impact the resulting kinematics to varying degrees depending on the laryngeal configuration.
KW - Speech synthesis
KW - muscle activation
KW - vocal folds
KW - voice
UR - http://www.scopus.com/inward/record.url?scp=85039156417&partnerID=8YFLogxK
U2 - 10.21437/Interspeech.2017-1722
DO - 10.21437/Interspeech.2017-1722
M3 - Conference article
AN - SCOPUS:85039156417
SN - 2308-457X
VL - 2017-August
SP - 1378
EP - 1382
JO - Proceedings of the Annual Conference of the International Speech Communication Association, INTERSPEECH
JF - Proceedings of the Annual Conference of the International Speech Communication Association, INTERSPEECH
T2 - 18th Annual Conference of the International Speech Communication Association, INTERSPEECH 2017
Y2 - 20 August 2017 through 24 August 2017
ER -