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Estimation of vocal fold physiology from voice acoustics using machine learning

Zhaoyan Zhang

2020The Journal of the Acoustical Society of America30 citationsDOIOpen Access PDF

Abstract

The goal of this study is to estimate vocal fold geometry, stiffness, position, and subglottal pressure from voice acoustics, toward clinical and other voice technology applications. Unlike previous voice inversion research that often uses lumped-element models of phonation, this study explores the feasibility of voice inversion using data generated from a three-dimensional voice production model. Neural networks are trained to estimate vocal fold properties and subglottal pressure from voice features extracted from the simulation data. Results show reasonably good estimation accuracy, particularly for vocal fold properties with a consistent global effect on voice production, and reasonable agreement with excised human larynx experiment.

Topics & Concepts

PhonationArticulatory phoneticsVocal foldsHuman voiceSpeech recognitionAcousticsComputer scienceLarynxFold (higher-order function)AudiologyPhysicsBiologyMedicineAnatomyProgramming languageSpeech Recognition and SynthesisVoice and Speech DisordersPhonetics and Phonology Research
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