Empirical eigenfunctions obtained from high‐speed imaging of the vocal folds

Experiments on mechanical deformable vocal folds replicas are important in physical studies of human voice production to understand the underlying fluid–structure interaction. At current date, most experiments are performed for constant initial conditions with respect to structural as well as geometrical features. Varying those conditions requires manual intervention, which might affect reproducibility and hence the quality of experimental results. In this work, a setup is described which allows setting elastic and geometrical initial conditions in an automated way for a deformable vocal fold replica. High-speed imaging is integrated in the setup in order to decorrelate elastic and geometrical features. This way, reproducible, accurate and systematic measurements can be performed for prescribed initial conditions of glottal area, mean upstream pressure and vocal fold elasticity. Moreover, quantification of geometrical features during auto-oscillation is shown to contribute to the experimental characterization and understanding.

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A portable smartphone-based laryngoscope system for high-speed vocal cord imaging of patients with throat disorders (Preprint)

10.2196/preprints.25816 ◽

2020 ◽

Author(s):

Jun Ki Kim ◽

Youngkyu Kim ◽

Jungmin Oh ◽

Seung-Ho Choi ◽

Ahra Jung ◽

...

Keyword(s):

Image Processing ◽

Vocal Cord ◽

High Speed ◽

High Performance ◽

Vocal Folds ◽

Frame Rate ◽

Endoscopic Imaging ◽

High Speed Imaging ◽

Underdeveloped Countries ◽

Longitudinal Edge

BACKGROUND Recently, high-speed digital imaging (HSDI), especially HSD endoscopic imaging is being routinely used for the diagnosis of vocal fold disorders. However, high-speed digital endoscopic imaging devices are usually large and costly, which limits access by patients in underdeveloped countries and in regions with inadequate medical infrastructure. Modern smartphones have sufficient functionality to process the complex calculations that are required for processing high-resolution images and videos with a high frame rate. Recently, several attempts have been made to integrate medical endoscopes with smartphones to make them more accessible to underdeveloped countries. OBJECTIVE To develop a smartphone adaptor for endoscopes to reduce the cost of devices, and to demonstrate the possibility of high-speed vocal cord imaging using the high-speed imaging functions of a high-performance smartphone camera. METHODS A customized smartphone adaptor was designed for clinical endoscopy using selective laser melting (SLM)-based 3D printing. Existing laryngoscope was attached to the smartphone adaptor to acquire high-speed vocal cord endoscopic images. Only existing basic functions of the smartphone camera were used for HSDI of the vocal folds. For image processing, segmented glottal areas were calculated from whole HSDI frames, and characteristics such as volume, shape and longitudinal edge length were analyzed. RESULTS High-speed digital smartphone imaging with the smartphone-endoscope adaptor could achieve 940 frames per second, and was used to image the vocal folds of five volunteers. The image processing and analytics demonstrated successful calculation of relevant diagnostic variables from the acquired images. CONCLUSIONS A smartphone-based HSDI endoscope system can function as a point-of-care clinical diagnostic device. Furthermore, this system is suitable for use as an accessible diagnostic method in underdeveloped areas with inadequate medical service infrastructure.

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Preliminary Results on the Influence of Engineered Artificial Mucus Layer on Phonation

Journal of Speech Language and Hearing Research ◽

10.1044/2014_jslhr-s-12-0277 ◽

2014 ◽

Vol 57 (2) ◽

Cited By ~ 9

Author(s):

Michael Döllinger ◽

Franziska Gröhn ◽

David A. Berry ◽

Ulrich Eysholdt ◽

Georg Luegmair

Keyword(s):

High Speed ◽

Polymer Concentration ◽

Physiological Saline ◽

Vocal Folds ◽

Oscillatory Behavior ◽

Linear Polymers ◽

High Speed Imaging ◽

Pass Filter ◽

Low Pass Filter

Purpose Previous studies have confirmed the influence of dehydration and an altered mucus (e.g., due to pathologies) on phonation. However, the underlying reasons for these influences are not fully understood. This study was a preliminary inquiry into the influences of mucus architecture and concentration on vocal fold oscillation. Method Two excised human larynges were investigated in an in vitro setup. The oscillations of the vocal folds at various airflow volume rates were recorded through the use of high-speed imaging. Engineered mucus containing polymers (interconnected polymers and linear polymers) was applied to the vocal folds. From the high-speed footage, glottal parameters were extracted through the use of objective methods and were compared to a gold standard (physiological saline solution). Results Variations were found for all applications of mucus. Fundamental frequency dropped and the oscillatory behavior (speed quotient [SQ], closing quotient [CQ]) changed for both larynges. The 2 applied mucus architectures displayed different effects on the larynges. The interconnected polymer displayed clear low-pass filter characteristics not found for the linear polymer. Increase of polymer concentration affected parameters to a certain point. Conclusion The data confirm results found in previous studies. Furthermore, the different effects—comparing architecture and concentration—suggest that, in the future, synthetic mucus can be designed to improve phonation.

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Vocal state change through laryngeal development

Nature Communications ◽

10.1038/s41467-019-12588-6 ◽

2019 ◽

Vol 10 (1) ◽

Cited By ~ 8

Author(s):

Yisi S. Zhang ◽

Daniel Y. Takahashi ◽

Diana A. Liao ◽

Asif A. Ghazanfar ◽

Coen P. H. Elemans

Keyword(s):

Motor Control ◽

High Speed ◽

Neural Circuits ◽

Low Frequency ◽

Vocal Folds ◽

Vocal Development ◽

High Speed Imaging ◽

State Changes ◽

Material Tests ◽

Excised Larynx

Abstract Across vertebrates, progressive changes in vocal behavior during postnatal development are typically attributed solely to developing neural circuits. How the changing body influences vocal development remains unknown. Here we show that state changes in the contact vocalizations of infant marmoset monkeys, which transition from noisy, low frequency cries to tonal, higher pitched vocalizations in adults, are caused partially by laryngeal development. Combining analyses of natural vocalizations, motorized excised larynx experiments, tensile material tests and high-speed imaging, we show that vocal state transition occurs via a sound source switch from vocal folds to apical vocal membranes, producing louder vocalizations with higher efficiency. We show with an empirically based model of descending motor control how neural circuits could interact with changing laryngeal dynamics, leading to adaptive vocal development. Our results emphasize the importance of embodied approaches to vocal development, where exploiting biomechanical consequences of changing material properties can simplify motor control, reducing the computational load on the developing brain.

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Automatic detection of vocal folds from high-speed imaging

2010 International Conference on Image Analysis and Signal Processing ◽

10.1109/iasp.2010.5476133 ◽

2010 ◽

Author(s):

Xiaoping Wang ◽

Xiaojian Yu ◽

Yu Zhang ◽

Xiaomei Xu

Keyword(s):

High Speed ◽

Automatic Detection ◽

Vocal Folds ◽

High Speed Imaging

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Theoretical Modeling and Experimental High-Speed Imaging of Elongated Vocal Folds

IEEE Transactions on Biomedical Engineering ◽

10.1109/tbme.2010.2095012 ◽

2011 ◽

Vol 58 (10) ◽

pp. 2725-2731 ◽

Cited By ~ 4

Author(s):

Yu Zhang ◽

M. F. Regner ◽

J. J. Jiang

Keyword(s):

High Speed ◽

Vocal Folds ◽

Theoretical Modeling ◽

High Speed Imaging

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Quantitative Study for the Surface Dehydration of Vocal Folds Based on High-Speed Imaging

Journal of Voice ◽

10.1016/j.jvoice.2014.09.025 ◽

2015 ◽

Vol 29 (4) ◽

pp. 403-409 ◽

Cited By ~ 12

Author(s):

Lin Li ◽

Yu Zhang ◽

Allison L. Maytag ◽

Jack J. Jiang

Keyword(s):

Quantitative Study ◽

High Speed ◽

Vocal Folds ◽

High Speed Imaging

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High-Speed Imaging of Vocal Fold Vibrations and Larynx Movements within Vocalizations of Different Vowels

Annals of Otology Rhinology & Laryngology ◽

10.1177/000348949610501208 ◽

1996 ◽

Vol 105 (12) ◽

pp. 975-981 ◽

Cited By ~ 16

Author(s):

Dieter Maurer ◽

Markus Hess ◽

Manfred Gross

Keyword(s):

Fundamental Frequency ◽

Digital Imaging ◽

Vocal Fold ◽

High Speed ◽

Vocal Tract ◽

Vocal Folds ◽

High Speed Imaging ◽

Filter Model ◽

Acoustic Interaction ◽

Glottal Source

Theoretic investigations of the “source-filter” model have indicated a pronounced acoustic interaction of glottal source and vocal tract. Empirical investigations of formant pattern variations apart from changes in vowel identity have demonstrated a direct relationship between the fundamental frequency and the patterns. As a consequence of both findings, independence of phonation and articulation may be limited in the speech process. Within the present study, possible interdependence of phonation and phoneme was investigated: vocal fold vibrations and larynx position for vocalizations of different vowels in a healthy man and woman were examined by high-speed light-intensified digital imaging. We found 1) different movements of the vocal folds for vocalizations of different vowel identities within one speaker and at similar fundamental frequency, and 2) constant larynx position within vocalization of one vowel identity, but different positions for vocalizations of different vowel identities. A possible relationship between the vocal fold vibrations and the phoneme is discussed.

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