Zhaoyan Zhang

 

Publications

 

Presentations

 

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Publications

    Zhang, Z. (in press). Vocal fold vertical thickness in human voice production and control: A review, J. Voice, in press. [pdf] [link]
    Yoshinaga, T., Zhang, Z., Iida, A. (2024). Restraining vocal fold vertical motion reduces source-filter interaction in a two-mass model, JASA Express Letters, 4(3), 035201. [pdf] [link]
    Schlegel, P., Berry, D., Moffatt, C., Zhang, Z., Chhetri, D. (2024). Register transitions in an in vivo canine model as a function of intrinsic laryngeal muscle stimulation, fundamental frequency, and sound pressure level, J. Acoust. Soc. Am., 155 (3), 2139–2150. [pdf] [link]
    Chung, H., Lee, Y. Reddy, N. Zhang, Z., Chhetri, D. (2024). Effects of thyroarytenoid activation induced vibratory asymmetry on voice acoustics and perception, Laryngoscope, 134, 1327–1332. [pdf] [link]
    Santuray, R., Schlegel, P., Zhang, Z., Reddy, N., Alhiyari, Y., Long, J. (2024). Cell-Based Outer Vocal Fold Replacement Both Treats and Prevents Vocal Fold Scarring in Rabbits, Laryngoscope, 134, 764–772. [pdf] [link]
    Chung, H.R., Reddy, N., Manzoor, D., Schlegel, P., Zhang, Z., Chhetri, D. (2024). Histologic Examination of Vocal Fold Mucosal Wave and Vibration, Laryngoscope, 134, 264–271. [pdf] [link]
    Zhang, Z. (2023). The influence of source-filter interaction on the voice source in a three-dimensional computational model of voice production, J. Acoust. Soc. Am., 154(4), 2462-2475. [pdf] [link]
    Schlegel, P., Doellinger, M., Reddy, N., Zhang, Z., Chhetri, D. (2023). Validation and enhancement of a vocal fold medial surface 3D reconstruction approach for in-vivo application, Scientific Reports, 13, 10705.[pdf] [link]
    Döllinger, M., Zhang, Z., Schoder, S., Šidlof, P., Tur, B., Kniesburges, S. (2023). Overview on state-of-the-art numerical modeling of the phonation process, Acta Acustica, 7, 25. [pdf] [link]
    Wu, L., Zhang, Z. (2023). Effects of implant and vocal fold stiffness on voice production after medialization laryngoplasty in an MRI-based vocal fold model, Journal of Biomechanics, 149, 111483. [pdf] [link]
    Pillutla, P., Reddy, N., Schlegel, P., Zhang, Z., Chhetri, D. (2023). Control of Pre-phonatory Glottal Shape by Intrinsic Laryngeal Muscles, Laryngoscope, 133, 1690-1697. [pdf] [link]
    Zhang, Z. (2023). Voice feature selection to improve performance of machine learning models for voice production inversion, J. Voice, 37(4), 479-485. [pdf] [link]
    Wu, L., Zhang, Z. (2023). Impact of the paraglottic space on voice production in an MRI-based vocal fold model, J. Voice, 37(4), 633.e15-633.e23. [pdf] [link]
    Yoshinaga, T., Zhang, Z., Iida, A. (2022). Comparison of one-dimensional and three-dimensional glottal flow models in left-right asymmetric vocal fold conditions, J. Acoust. Soc. Am., 152(5), 2557–2569. [pdf] [link]
    Zhang, Z., Zhang, J., Kreiman, J. (2022). Effects of laryngeal manipulations on voice gender perception, Proceedings of Interspeech 2022, 1856-1860. [pdf] [link]
    Reddy, N., Lee, Y., Zhang, Z., Chhetri, D. (2022). Optimal thyroplasty implant shape and stiffness for treatment of acute unilateral vocal fold paralysis: Evidence from a canine in vivo phonation model, Proceedings of Interspeech 2022, 2273-2277. [pdf] [link]
    Zhang, Z. (2022). Oral vibratory sensations during voice production at different laryngeal and semi-occluded vocal tract configurations, J. Acoust. Soc. Am., 152, 302-312. [pdf] [link]
    Zhang, Z. (in press). Contribution of undesired medial surface shape to suboptimal voice outcome after medialization laryngoplasty, J. Voice, in press. [pdf] [link]
    Wu, L., Zhang, Z. (in press). Computational study of the impact of dehydration-induced vocal fold stiffness changes on voice production, J. Voice, in press. [pdf] [link]
    Zhang, Z. (2022). Estimating subglottal pressure and vocal fold adduction from the produced voice in a single subject study, J. Acoust. Soc. Am., 151, 1337-1340. [pdf] [link]
    Pillutla, P., Zhang, Z., Kreiman, J., Wilhalme, H., Chhetri, D. (2022). Effects of Laryngeal Vibratory Asymmetry and Neuromuscular Compensation on Voice Quality, Laryngoscope, 132, 130-134. [pdf] [link]
    Zhang, Z. (2021). Contribution of laryngeal size to differences between male and female voice production, J. Acoust. Soc. Am., 150(6), 4511-4521. [pdf] [link]
    Zhang, Z. (2021). The physical aspects of vocal health, Acoustics Today, 17(3), 60-68. [pdf] [link]
    Zhang, Z. (2021). Vocal tract adjustments to minimize vocal fold contact pressure during phonation, J. Acoust. Soc. Am., 150, 1609-1619. [pdf] [link]
    Azar, S., Pillutla, P., Evans, L., Zhang, Z., Kreiman, J., Chhetri, D. (2021). Perceptual Evaluation of Vocal Fold Vibratory Asymmetry, Laryngoscope, 131, 2740–2746. [pdf] [link]
    Desjardins, M, Verdolini Abbott, K., Zhang, Z. (2021). Computational simulations of respiratory-laryngeal interactions and their effects on lung volume termination during phonation: considerations for hyperfunctional voice disorders, J. Acoust. Soc. Am., 149, 3988–3999. [pdf] [link]
    Zhang, Z. (2021). Interaction between epilaryngeal and laryngeal adjustments in regulating vocal fold contact pressure, JASA Express Letters, 1(2), 025201. [pdf] [link]
    Pillutla, P., Zhang, Z., Chhetri, D. (2021). Effects of arytenoid adduction suture position on voice production and quality, Laryngoscope, 131, 846-852. [pdf] [link]
    Signorello, R., Demolin, D., Henrich Bernardoni, N., Gerratt, B., Zhang, Z., Kreiman, J. (2020). Vocal fundamental frequency and sound pressure level in charismatic speech: A cross-gender and -language study, J. Voice, 34(5), 808.e1-808.e13. [pdf] [link]
    Zhang, Z. (2020). Laryngeal strategies to minimize vocal fold contact pressure and their effect on voice production, J. Acoust. Soc. Am., 148, 1039-1050. [pdf] [link]
    Zhang, Z. (2020). Estimation of vocal fold physiology from voice acoustics using machine learning, J. Acoust. Soc. Am., 147, EL264-EL270. [pdf] [link]
    Zhang, Z., Wu, L., Gray, R., Chhetri, D. (2020). Three-dimensional vocal fold structural change due to implant insertion in medialization laryngoplasty, PLoS ONE, 15(1), e0228464. [pdf] [link]
    Cameron, B., Zhang, Z., Chhetri, D. (2020). Effects of thyroplasty implant stiffness on glottal shape and voice acoustics, Laryngoscope Investigative Otolaryngology, 5, 82-89. [pdf] [link]
    Wu, L., Zhang, Z. (2019). Voice production in a MRI-based subject-specific vocal fold model with parametrically controlled medial surface shape, J. Acoust. Soc. Am., 146(6), 4190-4198. [pdf] [link]
    Zhang, Z., Chhetri, D. (2019). Effect of changes in medial surface shape on voice production in excised human larynges, J. Acoust. Soc. Am., 146(5), EL412-EL417. [pdf] [link]
    Zhang, Z. (2019). Vocal fold contact pressure in a three-dimensional body-cover phonation model, J. Acoust. Soc. Am., 146(1), 256-265. [pdf] [link]
    Zhang, Z. (2019). Structural constitutive modeling of the anisotropic mechanical properties of human vocal fold lamina propria, J. Acoust. Soc. Am., 145(6), EL476–EL482. [pdf] [link]
    Vahabzadeh-Hagh, A., Pillutla, P., Zhang, Z., Chhetri, D. (2019). Dynamics of Intrinsic Laryngeal Muscle Contraction, Laryngoscope, 129, E21–E25. [pdf] [link]
    Zhang, Z. (2019). Compensation strategies in voice production with glottal insufficiency, J. Voice, 33, 96-102. [pdf] [link]
    Zhang, Z. (2018). Vocal instabilities in a three-dimensional body-cover phonation model, J. Acoust. Soc. Am., 144(3), 1216–1230. [pdf] [link]
    Vahabzadeh-Hagh, A., Zhang, Z., Chhetri, D. (2018). Hirano’s cover–body model and its unique laryngeal postures revisited, Laryngoscope, 128, 1412-1418. [pdf] [link]
    Zhang, Z. (2017). Effect of vocal fold stiffness on voice production in a three-dimensional body-cover phonation model, J. Acoust. Soc. Am., 142(4), 2311–2321. [pdf] [link]
    Zhang, Z., Samajder, H., Long, L. (2017). Biaxial mechanical properties of human vocal fold cover under vocal fold elongation, J. Acoust. Soc. Am., 142(4), EL356-EL361. [pdf] [link]
    Zhang, Z. (2017). Toward real-time physically-based voice simulation: An eigenmode-based approach, Proceedings of Meetings on Acoustics, vol. 30, pp. 060002. [pdf] [link]
    Wu, L., Zhang, Z. (2017). A computational study of vocal fold dehydration during phonation, IEEE Transactions on Biomedical Engineering, 64(12), 2938-2948. [pdf] [link]
    Vahabzadeh-Hagh, A., Zhang, Z., Chhetri, D. (2017). Quantitative Evaluation of the In Vivo Vocal Fold Medial Surface Shape, Journal of Voice, 31(4), 513.e15-513.e23. [pdf] [link]
    Feinstein, A., Zhang, Z., Chhetri, D., Long, J. (2017). Measurement of cough aerodynamics in healthy adults, Annals of Otology, Rhinology & Laryngology., 126(5), 396-400. [pdf] [link]
    Vahabzadeh-Hagh, A., Zhang, Z., Chhetri, D. (2017). Three dimensional posture changes of the vocal fold from paired intrinsic laryngeal muscles, Laryngoscope, 127, 656–664. [pdf] [link]
    Zhang, Z. (2016). Respiratory laryngeal coordination in airflow conservation and reduction of respiratory effort of phonation, Journal of Voice, 30(6), 760.e7–760.e13. [pdf] [link]
    Zhang, Z. (2016). Mechanics of human voice production and control, J. Acoust. Soc. Am., 140(4), 2614–2635. [pdf] [link]
    Yin, J., Zhang, Z. (2016). Laryngeal muscular control of vocal fold posturing: Numerical modeling and experimental validation, J. Acoust. Soc. Am., 140(3), EL280-EL284. [pdf] [link]
    Farahani, M., Zhang, Z. (2016). Experimental validation of a three-dimensional reduced-order continuum model of phonation, J. Acoust. Soc. Am., 140(2), EL172-EL177. [pdf] [link]
    Wu, L., Zhang, Z. (2016). A parametric vocal fold model based on magnetic resonance imaging, J. Acoust. Soc. Am., 140(2), EL159-EL165. [pdf] [link]
    Zhang, Z. (2016). Cause-effect relationship between vocal fold physiology and voice production in a three-dimensional phonation model, J. Acoust. Soc. Am., 139(4), 1493-1507. [pdf] [link]
    Shiba, T., Hardy, J., Luegmair, G., Zhang, Z., Long, J. (2016). Tissue-engineered vocal fold mucosa implantation in rabbits, Otolaryngology–Head and Neck Surgery, 154, 679-688. [pdf] [link]
    Signorello, R., Zhang, Z., Gerratt, B., Kreiman, J. (2016). Impact of vocal tract resonance on the perception of voice quality changes caused by varying vocal fold stiffness, Acta Acustica united with Acustica, 102(2), 209-213. [pdf] [link]
    Mendelsohn, A., Zhang, Z., Luegmair, G., Orestes, M., Berke, G. (2015). Preliminary study of the open quotient in an ex vivo perfused human larynx, JAMA Otolaryngology-Head and Neck Surgery, 141(8), 751-756. [pdf] [link]
    Tse, J., Zhang, Z., Long, J. (2015). Effects of vocal fold epithelium removal on vibration in an excised human larynx model, J. Acoust. Soc. Am., 138, EL60-EL64. [pdf] [link]
    Zhang, Z. (2015). Regulation of glottal closure and airflow in a three-dimensional phonation model: Implications for vocal intensity control, J. Acoust. Soc. Am., 137(2), 898-910. [pdf] [link]
    Long, J., Salinas, J., Rafizadeh, S., Luegmair, G., Zhang, Z., Chhetri, D. (2015). In vivo vocal fold cover layer replacement, Laryngoscope, 125, 406–411. [pdf] [link]
    Zhang, Z., Chhetri, D.K., Bergeron, J.L. (2015). Effects of implant stiffness, shape, and medialization depth on the acoustic outcomes of medialization laryngoplasty, Journal of Voice, 29(2), 230-235. [pdf] [link]
    Luegmair, G., Chhetri, D., Zhang, Z. (2014). The role of thyroarytenoid muscles in regulating glottal closure in an in vivo canine larynx model, Proceedings of Meetings on Acoustics, vol. 22, pp. 060007. [pdf] [link]
    Farahani, M., Zhang, Z. (2014). A computational study of the effect of intraglottal vortex-induced negative pressure on vocal fold vibration, J. Acoust. Soc. Am., 136, EL369-EL375. [pdf] [link]
    Yin, J., Zhang, Z. (2014). Interaction between the thyroarytenoid and lateral cricoarytenoid muscles in the control of vocal fold adduction and eigenfrequencies, Journal of Biomechanical Engineering, 136(11), 111006. [pdf] [link]
    Kreiman, J., Gerratt, B., Garellek, M., Samlan, R., Zhang, Z. (2014). Toward a unified theory of voice production and perception, Loquens, 1(1), e009. [pdf] [link]
    Zhang, Z. (2014). The influence of material anisotropy on vibration at onset in a three-dimensional vocal fold model, J. Acoust. Soc. Am., 135, 1480-1490. [pdf] [link]
    Mendelsohn, A., Xuan, Y., Zhang, Z. (2014). Voice outcomes following laser cordectomy for early glottic cancer: A physical model investigation, Laryngoscope, 124, 1882-1886. [pdf] [link]
    Xuan, Y., Zhang, Z. (2014). Influence of embedded fibers and an epithelium layer on glottal closure pattern in a physical vocal fold model, Journal of Speech, Language, and Hearing Research, 57, 416-425. [pdf] [link]
    Yin, J., Zhang, Z. (2013). The influence of thyroarytenoid and cricothyroid muscle activation on vocal fold stiffness and eigenfrequencies, J. Acoust. Soc. Am., 133, 2972-2983. [pdf] [link]
    Berke, G., Mendelsohn, A., Howard, N.S., Zhang, Z. (2013). Neuromuscular induced phonation in a human ex vivo perfused larynx preparation, J. Acoust. Soc. Am., 133, EL114-EL117. [link]
    Zhang, Z., Kreiman, J., Gerratt, B.R., Garellek, M. (2013). Acoustic and perceptual effects of changes in body layer stiffness in symmetric and asymmetric vocal fold models, J. Acoust. Soc. Am., 133, 453-462. [pdf] [link]
    Zhang, Z., Yin, J. (2013). The influence of thyroarytenoid and cricothyroid muscle activation on vocal fold stiffness and eigenfrequencies, Proceedings of Meetings on Acoustics, ICA 2013, Montreal, Canada, vol. 19, pp. 060236. [pdf] [link]
    Zhang, Z., Xuan, Y. (2013). Influence of epithelium and fiber locations on glottal closure and sound production at soft-phonation conditions, Proceedings of Meetings on Acoustics, ICA 2013, Montreal, Canada, vol. 19, pp. 035045. [pdf] [link]
    Zhang, Z., Luu, T.H. (2012). Asymmetric vibration in a two-layer vocal fold model with left-right stiffness asymmetry: Experiment and simulation, J. Acoust. Soc. Am., 132, 1626-1635. [pdf] [link]
    Zhang, Z. (2011). Restraining mechanisms in regulating glottal closure during phonation, J. Acoust. Soc. Am., 130, 4010-4019. [pdf] [link]
    Mendelsohn, A., Zhang, Z. (2011). Phonation threshold pressure and onset frequency in a two-layer physical model of the vocal folds, J. Acoust. Soc. Am., 130, 2961-2968. [pdf] [link]
    Zhang, Z. (2011). On the difference between negative damping and eigenmode synchronization as two phonation onset mechanisms, J. Acoust. Soc. Am., 129(4), 2163-2167. [pdf] [link]
    Chhetri, D.K., Zhang, Z., Neubauer, J. (2011). Measurement of Young's modulus of vocal folds by indentation, Journal of Voice, 25(1), 1-7. [pdf]
    Zhang, Z., Neubauer, J. (2010). On the acoustical relevance of supraglottal flow structures to low-frequency voice production, J. Acoust. Soc. Am., 128(6), EL378-EL383. [pdf] [link]
    Zhang, Z. (2010). Vibration in a self-oscillating vocal fold model with left-right asymmetry in body-layer stiffness, J. Acoust. Soc. Am., 128(5), EL279-EL285. [link]
    Zhang, Z. (2010). Dependence of phonation threshold pressure and frequency on vocal fold geometry and biomechanics, J. Acoust. Soc. Am., 127(4), 2554-2562. [pdf] [link]
    Long, J.L., Neubauer, J., Zhang, Z., Zuk, P., Berke, G.S., Chhetri, D.K. (2010). Functional testing of a tissue-engineered vocal fold cover replacement, Otolaryngology-Head and Neck Surgery, 142, 438-440. [pdf]
    Zhang, Z., Neubauer, J., Berry, D.A. (2009). Influence of vocal fold stiffness and acoustic loading on flow-induced vibration of a single-layer vocal fold model, Journal of Sound and Vibration, 322, 299-313. [pdf] [link]
    Zhang, Z. (2009). Characteristics of phonation onset in a two-layer vocal fold model, J. Acoust. Soc. Am., 125(2), 1091-1102. [pdf] [link]
    Zhang, Z. (2008). Influence of flow separation location on phonation onset, J. Acoust. Soc. Am., 124(3), 1689-1694. [pdf] [link]
    Zhang, Z., Neubauer, J., Berry, D.A. (2007). Physical mechanisms of phonation onset: a linear stability analysis of an aeroelastic continuum model of phonation, J. Acoust. Soc. Am., 122(4), 2279-2295. [pdf] [link]
    Neubauer, J., Zhang, Z., Miraghaie, R., Berry, D.A. (2007). Coherent structures of the nearfield flow in a self-oscillating physical model of the vocal folds, J. Acoust. Soc. Am., 121(2), 1102-1118. [pdf] [link]
    Zhang, Z., Neubauer, J., Berry, D.A. (2006). Aerodynamically and acoustically driven modes of vibration in a physical model of the vocal folds, J. Acoust. Soc. Am., 120(5), 2841-2849. [pdf] [link]
    Berry, D.A., Zhang, Z., Neubauer, J. (2006). Mechanisms of irregular vibration in a physical model of the vocal folds, J. Acoust. Soc. Am., 120(3), EL36-EL42. [pdf] [link]
    Zhang, Z., Neubauer, J., Berry, D.A. (2006). The influence of subglottal acoustics on laboratory models of phonation, J. Acoust. Soc. Am., 120(3), 1558-1569. [pdf] [link]
    Zhang, Z., Mongeau, L. (2006). Broadband sound generation by confined pulsating jets in a mechanical model of the human larynx, J. Acoust. Soc. Am., 119(6), 3995-4005. [pdf] [link]
    Zhang, Z., Espy-Wilson, C., Boyce, S., Tiede, M. (2005). Modeling of the front cavity and sublingual space in American English rhotic sounds, Proceedings of the 30th IEEE International Conference on Acoustics, Speech, and Signal Processing (ICASSP), Philadelphia, Pennsylvania, 893-896. [pdf]
    Zhang, Z., Mongeau, L., Frankel, S., Thomson, S., Park, J. (2004). Sound generation by steady flow through glottis-shaped orifices, J. Acoust. Soc. Am., 116(3), 1720-1728. [pdf] [link]
    Zhang, Z., Espy-Wilson, C. (2004). A vocal tract model of American English /l/, J. Acoust. Soc. Am., 115(3), 1274-1280. [pdf] [link]
    Zhang, Z., Espy-Wilson, C., Tiede, M. (2003). Acoustic modeling of American English lateral approximants, Proceedings of the 8th European Conference on Speech Communication and Technology (Eurospeech), Geneva, Switzerland, 2393-2396. [pdf]
    Zhang, Z., Boyce, S., Espy-Wilson, C., Tiede, M. (2003). Acoustic strategies for production of American English retroflex /r/, Proceedings of the 15th International Congress of Phonetic Sciences (ICPHS), Barcelona, Spain, 1125-1128. [pdf]
    Zhang, Z., Mongeau, L., Frankel, S. (2002). Experimental verification of the quasi-steady approximation for aerodynamic sound generation by pulsating jets in tubes, J. Acoust. Soc. Am., 112(4), 1652-1663. [pdf] [link]
    Zhang, Z., Mongeau, L., Frankel, S. (2002). Broadband sound generation by confined turbulent jets, J. Acoust. Soc. Am., 112(2), 677-689. [pdf] [link]

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