{"id":108,"date":"2014-11-18T04:27:08","date_gmt":"2014-11-18T04:27:08","guid":{"rendered":"http:\/\/200.1.17.201\/vplab\/?page_id=108"},"modified":"2025-09-16T09:39:06","modified_gmt":"2025-09-16T13:39:06","slug":"publications","status":"publish","type":"page","link":"https:\/\/vplab.usm.cl\/index.php\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"

PATENTS<\/strong><\/p>\n

    \n
  1. M. Za\u00f1artu, A. Weinstein, J. Schwarzenberg, G. Carrasco, J. Rosas, F. Rubilar, “Advanced Voice Monitor”, Provisional US Patent submission, EFS ID 40199158, August 2020.<\/li>\n
  2. M. D\u00edaz, M. Za\u00f1artu “Method for estimating force and pressure of collision in vocal cords from high-speed laryngeal videos”, US10783630B2, Patent granted on 2020-09-22. US Patent<\/a> and PCT.<\/li>\n
  3. M. Za\u00f1artu, G. R. Wodicka, J. C. Ho, R. E. Hillman, and D. D. Mehta, \u201cSystem and Methods for Evaluating Vocal Function Using an Impedance-Based Inverse Filtering of Neck Surface Acceleration\u201d, U.S.\/Europe Patent WO\/2012\/112985, filing date Feb-20-2012, date issued Aug-24-2012. Link<\/a><\/li>\n
  4. M. W. Beltman, M. Za\u00f1artu, A. Raychowdhury, A. P. Rangarajan, M. E. Deisher, \u201cSpeech audio processing: Low power pre-processing algorithms and circuits to enhance speech recognition for handheld, mobile and embedded devices in noisy environment\u201d, U.S.\/Europe Patent WO\/2012\/003269, filing date June-30-2010, date issued Jan-05-2012. Link<\/a>.<\/li>\n<\/ol>\n\n\n

    JOURNAL PAPERS <\/strong>(WoS)<\/p>\n\n\n\n

    1. J. Sep\u00falveda, J. Parra, E. Ibarra, M. Araya, P. de la Cuadra, M. Za\u00f1artu, \u201cEstimation of Physiological Vocal Features From Neck Surface Acceleration Signals Using Probabilistic Bayesian Neural Networks\u201d (2025), IEEE\/ACM Transactions on Audio, Speech and Language Processing, Vol 33, pp. 1576 \u2013 1589, DOI: 10.1109\/TASLPRO.2025.3552938. link<\/a> \u2013 pdf<\/a><\/li>
    2. E. J. Ibarra, J. D. Arias-Lodo\u00f1o, J. I. Godino-Llorente, D. D. Mehta, M. Za\u00f1artu \u201cSubject-specific modeling by domain adaptation for the subglottal pressure estimation from neck-surface acceleration signals\u201d (2025), Biomedical Signal Processing and Control, Vol 106, pp. 107681, DOI: 10.1016\/j.bspc.2025.107681. link<\/a> \u2013 pdf<\/a><\/li>
    3. J. Parra, E. Ibarra, C. Calvache, J. Van Stan, R. E. Hillmam M. Za\u00f1artu (2025), \u201cEstimating the pathophysiology of phonotraumatic vocal hyperfunction using ambulatory data and a computational model\u201d, Journal of Speech, Language, and Hearing Research, Vol 68, No. 3, pp 949-962, DOI: 10.1044\/2024_JSLHR-24-00419. link<\/a> \u2013 pdf<\/a><\/li>
    4. I. Zalazar, G. Alzamendi, M. Za\u00f1artu, and G. Schlotthauer (2025) \u201cMaximum Correntropy Linear Prediction for Voice Inverse Filtering: Theoretical Framework and Practical Implementation\u201d, IEEE\/ACM Transactions on Audio, Speech and Language Processing, vol 33, pp. 152-162, DOI: 10.1109\/TASLP.2024.3512187. link<\/a> \u2013 pdf<\/a><\/li>
    5. E. J. Ibarra, G. E. Galindo, G. A. Alzamendi, J. P. Cortes, C. Castro, R. Manr\u00edquez, A. Testart and M. Za\u00f1artu, (2025) \u201cEmpirical Distribution of Glottal Edges (EDGE): A Statistical Assessment of Vocal Fold Kinematics Using High-Speed Videoendoscopy\u201d, IEEE Journal of Biomedical and Health Informatics, Vol. 29 (2), pp. 1087 \u2013 1100, DOI: 10.1109\/JBHI.2024.3462632. link<\/a> \u2013 pdf<\/a><\/li>
    6. M. D. Groll, S D. Peterson, M. Za\u00f1artu, J. M. Vojtech, C. E. Stepp (2025), \u201cEvaluating the Relationship between Relative Fundamental Frequency and the End of Vocal Fold Collision in Voicing Offset\u201d, Vol 39(2), pp. 345-352, Journal of Voice. DOI: 10.1016\/j.jvoice.2022.09.016. link<\/a> \u2013 pdf<\/a><\/li>
    7. C. Castro, J.P. Cortes, L. Z-Rivera, P. Prado, A. Weinstein, M. Zanartu, (2024) \u201cModeling voice production and self-perception in noise: Understanding the Lombard effect in non-phonotraumatic vocal hyperfunction\u201d, Journal of the Acoustical Society of America, 156(6), pp. 3772\u20133779. DOI: 10.1121\/10.0034544. link<\/a> \u2013 pdf<\/a><\/li>
    8. J. A. Parra, C. A. Calvache, G. Alzamendi, E. Ibarra. L. Solaque, S. D. Peterson, M. Za\u00f1artu, (2024) \u201cAsymmetric triangular body-cover model of the vocal folds with bilateral intrinsic muscle activation\u201d, J Acoust Soc Am, pp. 156(2):939-953. DOI: 10.1121\/10.0028164. link<\/a> \u2013 pdf<\/a><\/li>
    9. J G. Gonz\u00e1lez, J. I. Yuz, H. Garnier, A. Morales, J. P. Cort\u00e9s, M. Za\u00f1artu, \u201cContinuous-Time Model Identification of the Subglottal System\u201d (2024), Biomedical Signal Processing and Control, DOI: 10.1016\/j.bspc.2024.106394. link<\/a> \u2013 pdf<\/a><\/li>
    10. E. J. Ibarra, J. D. Arias-Londo\u00f1o, M. Za\u00f1artu, J. I. Godino-Llorente, (2023) \u201cTowards a Corpus (and Language)-Independent Screening of Parkinson\u2019s Disease from Voice and Speech through Domain Adaptation\u201d, Bioengineering, Vol 10, no. 11, pp. 1316. DOI: 10.3390\/bioengineering10111316. link<\/a> \u2013 pdf<\/a><\/li>
    11. M. Serry, G. A. Alzamendi, M. Za\u00f1artu, S.D. Peterson (2023) \u201cAn Euler\u2013Bernoulli-type beam model of the vocal folds for describing curved and incomplete glottal closure patterns\u201d, Journal of the Mechanical Behavior of Biomedical Materials, Vol 147, pp. 106130, DOI: 10.1016\/j.jmbbm.2023.106130. link<\/a> \u2013 pdf<\/a><\/li>
    12. J. J. Deng, B. D. Erath, M. Za\u00f1artu, and S. D. Peterson (2023), \u201cThe effect of swelling on vocal fold kinematics and dynamics\u201d, Biomechanics and Modeling in Mechanobiology, Vol. 22, pp. 1873\u20131889, DOI: 10.1007\/s10237-023-01740-3. link<\/a> \u2013 pdf<\/a><\/li>
    13. J. Cuadros, L. Z. Rivera, C. Castro, G. Whitaker, M. Otero, A. Weinstein, E. Mart\u00ednez, P. Prado, M. Za\u00f1artu (2023) \u201cDIVA meets EEG: Model Validation using Formant-Shift Reflex\u201d, Applied Sciences, Vol 13(13), pp 7512. DOI: 10.3390\/app13137512. link<\/a> \u2013 pdf<\/a><\/li>
    14. A. Morales, J. I. Yuz, J. P. Cort\u00e9s, J. G. Fontanet, M. Za\u00f1artu (2023) \u201cGlottal Airflow Estimation Using Neck Surface Acceleration and Low-Order Kalman Smoothing\u201d, IEEE\/ACM Transactions on Audio, Speech and Language Processing, Vol. 31, pp. 2055-2066, DOI: 10.1109\/TASLP.2023.3277269. link<\/a> \u2013 pdf<\/a><\/li>
    15. M. Serry, G. A. Alzamendi, M. Za\u00f1artu, S.D. Peterson (2023) \u201cModelling the influence of the extrinsic musculature on phonation\u201d, Biomechanics and Modeling in Mechanobiology, Vol 22, pp.1365\u20131378, DOI: 10.1007\/s10237-023-01724-3. link<\/a> \u2013 pdf<\/a><\/li>
    16. M. Motie-Shirazi, Mat\u00edas Za\u00f1artu, Sean D. Peterson, Daryush D. Mehta, Robert E. Hillman, Byron D. Erath (2023), \u201cEffect of nodule size and stiffness on phonation threshold and collision pressures in a synthetic hemilaryngeal self-oscillating vocal fold model\u201d, Journal of the Acoustical Society of America, 153(1), pp. 654-664, DOI: 10.1121\/10.0016997. link<\/a> – pdf<\/a><\/li>
    17. J. P. Cort\u00e9s, J. Z. Lin, K. L. Marks, V. M. Espinoza, E. J. Ibarra, M. Za\u00f1artu, R. E. Hillman (2022), D. D. Mehta, “Ambulatory monitoring of subglottal pressure estimated from neck-surface vibration in individuals with and without voice disorders”, accepted for publication, Applied Sciences. link<\/a> – pdf<\/a><\/li>
    18. M. D. Groll, S D. Peterson, M. Za\u00f1artu, J. M. Vojtech, C. E. Stepp (2022), “Evaluating the Relationship between Relative Fundamental Frequency and the End of Vocal Fold Collision in Voicing Offset”, accepted for publication, Journal of Voice. link<\/a> – pdf<\/a><\/li>
    19. C. Castro, P. Prado, V. M. Espinoza, A. Testart, D. Marfull, R. Manr\u00edquez, C. E. Stepp, D. D. Mehta, R. E. Hillman, M. Za\u00f1artu, (2022) “Lombard Effect in Individuals with Non-Phonotraumatic Vocal Hyperfunction: Impact on Acoustic, Aerodynamic, and Vocal Fold Vibratory Parameters”, Journal of Speech, Language, and Hearing Research, Vol 65(8), pp 2881-2895, DOI: 10.1044\/2022_JSLHR-21-00508. link<\/a> – pdf<\/a><\/li>
    20. M. Motie-Shirazi, S. D. Peterson, M. Za\u00f1artu, D. D. Mehta, R. E. Hillman, and B. D. Erath, (2022) “Collision pressure and dissipated-power dose in a self-oscillating silicone vocal fold model with a posterior glottal opening” Journal of Speech, Language, and Hearing Research, Vol 65(8), pp 288-2895, DOI: 10.1044\/2022_JSLHR-21-00471. link<\/a> – pdf<\/a><\/li>
    21. H. R. Weerathunge, G. A. Alzamendi, G. J. Cler, F. H. Guenther, C. E. Stepp, M. Za\u00f1artu (2022) “LaDIVA: A neurocomputational model providing laryngeal motor control for speech acquisition and production”, PLOS Computational Biology, 18(6): e1010159. DOI: 10.1371\/journal.pcbi.1010159. link<\/a> – pdf<\/a><\/li>
    22. J. Deng, M. Serry, M. Za\u00f1artu, B.D. Erath; S. D. Peterson (2022) “Modeling the influence of COVID-19 protective measures on the mechanics of phonation”, Journal of the Acoustical Society of America, Vol 151(5), pp 2987\u20132998. DOI: 10.1121\/10.0009822. link<\/a> – pdf<\/a><\/li>
    23. J. P. Cort\u00e9s, G. A. Alzamendi, A. J. Weinstein, J. I. Yuz, V. M. Espinoza, D. D. Mehta, R. E. Hillman, M. Za\u00f1artu, (2022) “Kalman Filter Implementation of Subglottal Impedance-Based Inverse Filtering to Estimate Glottal Airflow during Phonation”, Applied Sciences, 12(1), 401; DOI: 10.3390\/app12010401. link<\/a> – pdf<\/a><\/li>
    24. G. A. Alzamendi, S. D. Peterson, B. D. Erath, R. E. Hillman, M. Za\u00f1artu (2022), \u201cTriangular body-cover model of the vocal folds with coordinated activation of five intrinsic laryngeal muscles\u201d, Journal of the Acoustical Society of America, Vol 151(1), pp. 17-30, DOI: 10.1121\/10.0009169. link<\/a> – pdf<\/a><\/li>
    25. E. J. Ibarra, J. Parra, G. A. Alzamendi, J. P. Cort\u00e9s, V. M. Espinoza, D. D. Mehta, R. E. Hillman and M. Za\u00f1artu (2021), “Estimation of subglottal pressure, vocal fold collision pressure, and intrinsic laryngeal muscle activation from neck-surface vibration using a neural network framework and a voice production model”, Frontiers in Physiology, section Computational Physiology and Medicine, Vol 12, pp. 1419. DOI: 10.3389\/fphys.2021.732244. link<\/a> – pdf<\/a><\/li>
    26. D. D. Mehta, J. B. Kobler, S. M. Zeitels, M. Za\u00f1artu, E. J. Ibarra, G. A. Alzamendi, R. Manriquez, B. D. Erath, S. D. Peterson, R. H. Petrillo, R. E. Hillman, (2021) “Direct measurement and modeling of intraglottal, subglottal, and vocal fold collision pressures during phonation in an individual with a hemilaryngectomy”, Applied Sciences-Basel, Special issue “Computational Methods and Engineering Solutions to Voice II”, 11(16), 7256; DOI:10.3390\/app11167256. link<\/a> – pdf<\/a><\/li>
    27. M. Motie-Shirazi, M. Za\u00f1artu; S. D Peterson, B. D Erath, (2021) “Vocal fold dynamics in a synthetic self-oscillating model: Intraglottal aerodynamic pressure and energy”, Journal of the Acoustical Society of America, Vol 150(2), pp.1332\u20131345, DOI: 10.1121\/10.0005882. link<\/a> – pdf<\/a><\/li>
    28. M. Motie-Shirazi, M. Za\u00f1artu, S. D. Peterson, B. D. Erath (2021), \u201cVocal fold dynamics in a synthetic self-oscillating model: Contact pressure and dissipated energy dose,” Journal of the Acoustical Society of America, Vol 150(1), pp. 478-489, DOI: 10.1121\/10.0005596. link<\/a> – pdf<\/a><\/li>
    29. L. A. Mora, H. Ramirez, J. I. Yuz, Y. Le Gorrec, M. Za\u00f1artu (2021) \u201cEnergy-based fluid-structure model of the vocal folds\u201d, IMA Journal of Mathematical Control and Information, Volume 38(2), pp 466\u2013492, DOI:10.1093\/imamci\/dnaa031. link<\/a> – pdf<\/a><\/li>
    30. D. Deliyski, M. Shishkov, D. Mehta, H. Ghasemzadeh, B. Bouma, M. Za\u00f1artu, A.de Alarcon, R. Hillman, (2021) \u201cLaser-Calibrated System for Transnasal Fiberoptic Laryngeal High-Speed Videoendoscopy\u201d, Jounal of Voice, Vol 35(1), pp. 122-128, DOI: 10.1016\/j.jvoice.2019.07.013. link<\/a>– pdf<\/a><\/li>
    31. E. Mart\u00ednez-Montes, Y. Garc\u00eda-Puente, M. Za\u00f1artu, P. Prado-Guti\u00e9rrez, (2020) \u201cChirp analyzer for estimating amplitude and latency of steady-state auditory envelope following responses\u201d, IEEE Trans Neural Syst and Rehab Eng, vol. 28(12), pp. 2744 – 2753, DOI: 10.1109\/TNSRE.2020.3032835. link<\/a> \u2013 pdf<\/a><\/li>
    32. Robert E. Hillman, C. E. Stepp, J. H. Van Stan, M. Za\u00f1artu, D. D. Mehta (2020) “An Updated Theoretical Framework for Vocal Hyperfunction” American Journal of Speech-Language Pathology, Vol 29(4), pp 2254-2260, DOI: 10.1044\/2020_AJSLP-20-00104. link<\/a> – pdf<\/a><\/li>
    33. V. E. Espinoza, D. E. Mehta, J. Van Stan, R. E. Hillman, M. Za\u00f1artu (2020), “Glottal aerodynamics estimated from neck-surface vibration in women with phonotraumatic and nonphonotraumatic vocal hyperfunction”, Journal of Speech, Language, and Hearing Research, Vol 63(9), pp.2861-2869. DOI: 10.1044\/2020_JSLHR-20-00189. link<\/a> – pdf<\/a><\/li>
    34. G. Alzamendi, R. Manriquez. J. Hadwin, J. J. Deng, S. D. Peterson, B. D. Erath, D. D. Mehta, R. E. Hillman, M. Za\u00f1artu (2020) \u201cBayesian estimation of vocal function measures using laryngeal high-speed videoendoscopy and glottal airflow estimates: An in vivo case study\u201d, J. Acous. Soc. Am., 147(5), pp EL434-EL439. DOI:10.1121\/10.0001276. link<\/a> – pdf<\/a><\/li>
    35. J. Z. Lin, V. M. Espinoza, K. L. Marks, M. Za\u00f1artu, D. D. Mehta (2020), “Improved subglottal pressure estimation from neck-surface vibration in healthy speakers producing non-modal phonation”, IEEE Journal of Selected Topics in Signal Processing, Vol 14(2), pp 449-460, DOI: 10.1109\/JSTSP.2019.2959267. link<\/a> – pdf<\/a><\/li>
    36. J. A. Mucarquer, P. Prado, M. J. Escobar, W. El-Deredy, and M. Za\u00f1artu (2020) “Improving EEG muscle artifact removal with an EMG array”, IEEE Transactions on Instrumentation & Measurement, Vol 69(3), pp 815-824, DOI: 10.1109\/TIM.2019.2906967. link<\/a> – pdf<\/a><\/li>
    37. D.D. Mehta, J. Kobler, S. Zeitels, M. Za\u00f1artu, B. D. Erath, M. Motie-Shirazi, S. D. Peterson, R. Petrillo, R. E. Hillman (2019) \u201cToward Development of a Vocal Fold Contact Pressure Probe: Bench-Top Validation of a Dual-Sensor Probe Using Excised Human Larynx Models\u201d, Applied Sciences-Basel, Special issue “Computational Methods and Engineering Solutions to Voice”, 9(20), pp.4360. DOI:10.3390\/app9204360. link<\/a><\/li>
    38. M. Motie-Shirazi, M. Zanartu, S. D Peterson, D. D. Mehta, J. Kobler, R. E. Hillman, B. D. Erath, (2019) “Toward Development of a Vocal Fold Contact Pressure Probe: Sensor Characterization and Validation Using Synthetic Vocal Fold Models”, Applied Sciences-Basel, Special issue “Computational Methods and Engineering Solutions to Voice” , 9(15), pp. 3002. DOI: 10.3390\/app9153002. link<\/a><\/li>
    39. B. D. Erath, S. D. Peterson, K. S. Weiland, M. W. Plesniak, M. Za\u00f1artu, (2019)”An acoustic source model for asymmetric intraglottal flow with application to reduced-order models of the vocal folds”, PLoS ONE 14(7): e0219914. DOI: 10.1371\/journal.pone.0219914. link<\/a><\/li>
    40. M. Diaz-Cadiz, S. D. Peterson, G.E. Galindo, V. M. Espinoza, M. Motie-Shirazi, B. D. Erath, M. Za\u00f1artu (2019) “Estimating Vocal Fold Contact Pressure from Raw Laryngeal High-Speed Videoendoscopy Using a Hertz Contact Model”, Applied Sciences-Basel, Special issue “Computational Methods and Engineering Solutions to Voice”, 9(11), pp. 2384; DOI:10.3390\/app9112384. link <\/a>– pdf <\/a>– special issue<\/a><\/li>
    41. Prado-Guti\u00e9rrez, P., Otero, M., Mart\u00ednez-Montes, E., Weinstein, A., Escobar, M. J., El-Deredy, W., Za\u00f1artu, M. (2019) “A Method for Tracking the Time Evolution of Steady-State Evoked Potentials.”, J. Vis. Exp. (147), e59898, DOI:10.3791\/59898 (2019). link<\/a> – pdf<\/a><\/li>
    42. D. Mehta, V. M. Espinoza, J. H. Van Stan, M. Za\u00f1artu, R. E. Hillman, (2019) “The difference between first and second harmonic amplitudes correlates between glottal airflow and neck-surface accelerometer signals during phonation”, J. Acoust. Soc. Am., 145(5), pp. EL386-EL392. DOI: 10.1121\/1.5100909. link<\/a> – pdf<\/a><\/li>
    43. R. Manriquez, S. D. Peterson, P. Prado, P. Orio, G. Galindo, M. Za\u00f1artu, (2019) “Neurophysiological Muscle Activation Scheme for Controlling Vocal Fold Models”, IEEE Trans Neural Syst and Rehab Eng, vol 27(5), pp. 1043 – 1052, DOI: 10.1109\/TNSRE.2019.2906030. link <\/a>– pdf<\/a><\/li>
    44. P Prado, E. Mart\u00ednez, A. Weinstein, M. Za\u00f1artu, (2019) “Estimation of auditory steady-state responses based on the averaging of independent EEG epochs”, PLoS ONE 14(1): e0206018. https:\/\/doi.org\/10.1371\/journal.pone.0206018. link<\/a><\/li>
    45. J.P. Cortes, V. M. Espinoza, M. Ghassemi, D. Mehta, J. Van Stan, R. Hillman, J. Guttag, M. Za\u00f1artu (2018), “Ambulatory assessment of phonotraumatic vocal hyperfunction using glottal airflow measures estimated from neck-surface acceleration”, PLoS ONE 13(12): e0209017. doi:10.1371\/journal.pone.0209017. link<\/a><\/li>
    46. G. E. Galindo, S. D. Peterson, B. D. Erath, C. Castro, R. E. Hillman, M. Za\u00f1artu (2017), “Modeling the pathophysiology of phonotraumatic vocal hyperfunction with a triangular glottal model of the vocal folds”, Journal of Speech, Language, and Hearing Research, Vol. 60(9), pp. 2452\u20132471, DOI: 10.1044\/2017_JSLHR-S-16-0412. link <\/a>– pdf<\/a><\/li>
    47. V. M. Espinoza, M. Za\u00f1artu, J. H. Van Stan, D. D. Mehta, and R. E. Hillman (2017) \u201cGlottal aerodynamic measures in women with phonotraumatic and nonphonotraumatic vocal hyperfunction”, Journal of Speech, Language, and Hearing Research, Vol. 60(8), pp. 2159\u20132169, DOI: 10.1044\/2017_JSLHR-S-16-0337. link<\/a> – pdf<\/a><\/li>
    48. Y. Chien, D. D. Mehta, J. Gu\u00f0nason, M. Za\u00f1artu, and T. F. Quatieri, (2017) “Performance Evaluation of Glottal Inverse Filtering Algorithms Using a Physiologically Based Articulatory Speech Synthesizer”, IEEE\/ACM Trans. Audio Speech Lang. Proc., Vol 25(8), pp. 1718-1730. DOI: 10.1109\/TASLP.2017.2714839. link<\/a> – pdf<\/a><\/li>
    49. B. D. Erath, M. Za\u00f1artu, S. D. Peterson (2017) “Modeling Viscous Dissipation During Vocal Fold Contact: The Influence of Tissue Viscosity and Thickness with Implications for Hydration”, Biomechanics and Modeling in Mechanobiology, Vol 16(3), pp 947-960. DOI: 10.1007\/s10237-016-0863-5. link<\/a> – pdf<\/a><\/li>
    50. P. Hadwin, G. Galindo, K. Daun, M. Za\u00f1artu, B. Erath, E. Cataldo, and S. Peterson (2016), \u201cBayesian Estimation of Non-Stationary Parameters in a Body Cover Model of the Vocal Folds\u201d, J. Acoust. Soc. Am., Vol 139(5), pp 2683-2696. DOI:10.1121\/1.4948755. link<\/a> – pdf<\/a><\/li>
    51. Robertson D, Za\u00f1artu M, Cook D (2016) “Comprehensive, Population-Based Sensitivity Analysis of a Two-Mass Vocal Fold Model”. PLoS ONE 11(2): e0148309. DOI:10.1371\/journal.pone.0148309. link<\/a> – pdf<\/a><\/li>
    52. D. D. Mehta, J. H. Van Stan, M. Za\u00f1artu, M. Ghassemi, J. V. ,Guttag, V. M. Espinoza, J. P. Cort\u00e9s, H. A. Cheyne, and R. E. Hillman, (2015). “Using ambulatory voice monitoring to investigate common voice disorders: Research update,” Front. Bioeng. Biotechnol. vol. 3, article 155, pp. 1\u201314. DOI: 10.3389\/fbioe.2015.00155. link <\/a>– pdf<\/a><\/li>
    53. A. F. Llico, M. Za\u00f1artu, A. J. Gonzalez, G. R. Wodicka, D. D. Mehta, J. Van Stan andR. E. Hillman, (2015) “Real-time estimation of aerodynamic features for ambulatory voice biofeedback”, J. Acoust. Soc. Am., 138(1), pp. EL14-EL19, DOI: 10.1121\/1.4922364. link<\/a> – pdf<\/a><\/li>
    54. M. Za\u00f1artu, G. Galindo, B. D. Erath, S. D. Peterson, G. R. Wodicka, R. E. Hillman (2014) “Modeling the effects of a posterior glottal opening on vocal fold dynamics with implications for vocal hyperfunction”, J. Acoust. Soc. Am. 136(6), pp. 3262\u20133271, DOI: 10.1121\/1.4901714. link<\/a> – pdf<\/a><\/li>
    55. A. Tsanas, M. Za\u00f1artu, M. Little, C. Fox, L. Ramig, and G. Clifford, (2014) “Robust fundamental frequency estimation in sustained vowels: Detailed algorithmic comparisons and information fusion with adaptive Kalman filtering\u201d, J. Acoust. Soc. Am., Vol. 135(5), pp. 2885-2901, DOI: 10.1121\/1.4870484. link<\/a> – pdf<\/a><\/li>
    56. M. Ghassemi, J. Van Stan, D. D. Mehta, M. Za\u00f1artu, H. A. Cheyne II, R. E. Hillman, and J. V. Guttag (2014) “Learning to detect vocal hyperfunction from ambulatory neck-skin acceleration features: Initial results for vocal fold nodules”, IEEE Trans. Biomed. Eng., Vol. 61(6), pp.1668-1675, DOI: 10.1109\/TBME.2013.2297372. link<\/a> – pdf<\/a><\/li>
    57. B. D. Erath, S. D. Peterson, M. Za\u00f1artu, G. R. Wodicka, K. C. Stewart, and M. W. Plesniak (2013) “Response to \u201cComments on \u2018A theoretical model of the pressure distributions arising from asymmetric intraglottal flows applied to a two-mass model of the vocal folds\u2019\u201d [J. Acoust. Soc. Am. 130, 389\u2013403 (2011)] (L)” J. Acoust. Soc. Am., Vol. 134(2), pp.913\u2013916. DOI: 10.1121\/1.4812775. link<\/a><\/li>
    58. M. Za\u00f1artu, J. C. Ho, D. D. Mehta, R. E. Hillman, and G. R. Wodicka, (2013) “Subglottal impedance-based inverse filtering of speech sounds using neck surface acceleration”, IEEE Trans. Audio Speech Lang. Proc., 21(9), pp. 1929-1939. DOI: 10.1109\/TASL.2013.2263138. link1<\/a> – link2<\/a> – pdf<\/a><\/li>
    59. B. D. Erath, M. Za\u00f1artu, K. C. Stewart, M. W. Plesniak, D. E. Sommer, and S. D. Peterson (2013) “A review of lumped-element numerical models of voiced speech”, Speech Comm. 55(5), pp. 667\u2013690. DOI:10.1016\/j.specom.2013.02.002. pdf<\/a> – link<\/a><\/li>
    60. D. E. Sommer, B. D. Erath, M. Za\u00f1artu, and S. D. Peterson (2013), “The Impact of glottal area discontinuities on block-type vocal fold models with asymmetric tissue properties”, J. Acoust. Soc. Am., 133(3), pp. EL214-EL220. pdf<\/a><\/li>
    61. D. D. Mehta, M. Za\u00f1artu, S. W. Feng, H. A. Cheyne, and R. E. Hillman, (2012) “Mobile voice health monitoring using a wearable accelerometer sensor and a smartphone platform”, IEEE Trans. Biomed. Eng.,Vol 59(11), pp.3090-3096, DOI: 10.1109\/TBME.2012.2207896. pdf<\/a><\/li>
    62. D. E. Sommer, B. D. Erath, M. Za\u00f1artu, and S. D. Peterson (2012), “Corrected Contact Dynamics for the Steinecke and Herzel Asymmetric Two-Mass Model of the Vocal Folds”, J. Acoust. Soc. Am., 132(4), pp. EL272-EL276, DOI:10.1121\/1.4734013. pdf<\/a><\/li>
    63. D. D. Mehta, M. Za\u00f1artu, T. F. Quatieri, D. D. Deliyski, and R. E. Hillman (2011), \u201cInvestigating acoustic correlates of human vocal fold phase asymmetry through mathematical modeling and laryngeal high- speed videoendoscopy\u201d ,J. Acoust. Soc. Am., Vol. 130(6), pp. 3999-4009. DOI: 10.1121\/1.3658441. pdf<\/a><\/li>
    64. B. D. Erath, M. Za\u00f1artu, S. D. Peterson, and M. W. Plesniak (2011), \u201cNonlinear vocal fold dynamics resulting from asymmetric fluid loading on a two-mass model of speech\u201d ,Chaos, Vol. 21, pp. 033113-1-8. DOI: 10.1063\/1.3615726. pdf<\/a><\/li>
    65. B. D. Erath, S. D. Peterson, M. Za\u00f1artu, G. R. Wodicka, and M. W. Plesniak (2011), \u201cA theoretical model of the pressure distributions arising from asymmetric intraglottal flows applied to a two-mass model of the vocal folds\u201d, J. Acoust. Soc. Am., 130(1), pp.389-403. DOI: 10.1121\/1.3586785. pdf<\/a><\/li>
    66. M. Za\u00f1artu, D. D. Mehta, J. C. Ho, G. R. Wodicka, and R. E. Hillman (2011), \u201c Observation and analysis of in vivo vocal fold tissue instabilities produced by nonlinear source-filter coupling: A case study “, J. Acoust. Soc. Am., 129(1), pp.326-339. DOI: 10.1121\/1.3514536. pdf<\/a><\/li>
    67. J. C. Ho, M. Za\u00f1artu, and G. R. Wodicka (2011), \u201cAn anatomically-based, time-domain acoustic model of the subglottal system for speech production \u201d, J. Acoust. Soc. Am., 129(3), pp.1531-1547. DOI: 10.1121\/1.3543971. pdf<\/a><\/li>
    68. M. Za\u00f1artu, J. C. Ho, S. S. Kraman, H. Pasterkamp, J. E. Huber, and G. R. Wodicka (2009) “Air-borne and tissue-borne sensitivities of bioacoustic sensors used on the skin surface,” IEEE Trans. Biomed. Eng., vol. 56, pp. 443-51. DOI: 10.1109\/TBME.2008.2008165. pdf<\/a><\/li>
    69. D. D. Mehta, D. D. Deliyski, S. M. Zeitels, M. Za\u00f1artu, and R. E. Hillman (2009), “Integrationofultrahigh-speedcolorvideoendoscopywithtime-synchronized measures of vocal function”, Laryngoscope, Vol. 119, Supplement 1, p.S34. DOI: 10.1002\/lary.20351.<\/li>
    70. M. Za\u00f1artu, L. Mongeau, and G. R. Wodicka (2007), “Influence of acoustic loading on an effective single mass model of the vocal folds”, J. Acoust. Soc. Am., 121(2), pp. 1119-1129. DOI:10.1121\/1.2409491 pdf<\/a><\/li><\/ol>\n\n\n\n

      BOOK CHAPTERS<\/strong><\/p>\n\n\n\n

      1. D. D. Mehta, D. D. Deliyski, S. M. Zeitels, M. Za\u00f1artu, and R. E. Hillman (2015). Integration of transnasal fiberoptic high-speed videoendoscopy with time-synchronized recordings of vocal function. In K. Izdebski, Y. Yan, & R. Patel (Eds.), Normal & Abnormal Vocal Folds Kinematics: HSDP, OCT & NBI\u00ae, Volume I: Technology<\/em>. San Francisco: Pacific Voice & Speech Foundation, 105-114. pdf<\/a>. The book is available in amazon here<\/a>.<\/li><\/ol>\n\n\n\n

        <\/p>\n\n\n\n

        CONFERENCE PAPERS<\/strong><\/p>\n\n\n\n

        1. A. Araya, E. Ibarra, M. Za\u00f1artu, \u201cEnhancing glottis segmentation in laryngeal high-speed videoendoscopy using YOLO-based ROI detection\u201d, The 16th International Conference on Advances in Quantitative Laryngology, Voice, and Speech Research, AQL2025, June 23-27, 2025, Groningen, The Netherlands<\/li>
        2. R. B. Ortega, J. A. Parra, N. F. Quinteros, E. Ibarra, C. E. Stepp, M. Za\u00f1artu, \u201cEffects of cognitive load on vocal motor control: changes in subglottal pressure and laryngeal muscle activation\u201d, The 16th International Conference on Advances in Quantitative Laryngology, Voice, and Speech Research, AQL2025, June 23-27, 2025, Groningen, The Netherlands<\/li>
        3. N. F. Quinteros, J. P. Cort\u00e9s, J. A. Parra, H. R. Weerathunge, F. H. Guenther, M. Za\u00f1artu \u201cModeling uncertainty in speech adaptation to sensory feedback Perturbations\u201d,The 16th International Conference on Advances in Quantitative Laryngology, Voice, and Speech Research, AQL2025, June 23-27, 2025, Groningen, The Netherlands<\/li>
        4. N. F. Quinteros, J. A. Parra, G. A. Alzamendi, M. Za\u00f1artu, \u201cModeling laryngeal motor control with somatosensory feedback for prephonatory vocal posture\u201d, The 16th International Conference on Advances in Quantitative Laryngology, Voice, and Speech Research, AQL2025, June 23-27, 2025, Groningen, The Netherlands<\/li>
        5. F. Contreras-Ruston, A. Callen, M. Za\u00f1artu, H. Arriagada-Concha, A. Lagos-Villaseca, S. Rojas, C. Napolitano, J.Navarra, S. Kotz, \u201cVoice loudness, self-assessment and auditory-sensory feedback in voice production in Parkinson\u2019s disease\u201d, The 16th International Conference on Advances in Quantitative Laryngology, Voice, and Speech Research, AQL2025, June 23-27, 2025, Groningen, The Netherlands<\/li>
        6. J. Sep\u00falveda, J. Parra, E. Ibarra, M. Araya, P. de la Cuadra, M. Za\u00f1artu, \u201cEstimation of physiological vocal features from neck surface acceleration signals using probabilistic Bayesian neural networks\u201d, 188th Meeting of the Acoustical Society of America, New Orleans, Louisiana, USA. May 18 \u2013 25, 2025.<\/li>
        7. R. Ortega, M. Za\u00f1artu \u201cM\u00e9todo para detectar carga cognitiva elevada a trav\u00e9s de un modelo de control motor laringeo\u201d, LXXX Congreso Chileno de Otorrinolaringolog\u00eda y Cirug\u00eda de Cabeza y Cuello (ORL2024), Nov 20-23 2024, Valdivia, Chile.<\/li>
        8. E. Ibarra, M. Za\u00f1artu, \u201d Explicaci\u00f3n de indicadores m\u00e9tricos basados en videoendoscopia de alta velocidad para identificar disfon\u00eda por tension muscular y n\u00f3dulos vocales\u201d, LXXX Congreso Chileno de Otorrinolaringolog\u00eda y Cirug\u00eda de Cabeza y Cuello (ORL2024), Nov 20-23, 2024 Valdivia, Chile.<\/li>
        9. N. Quinteros, J. Parra, M. Za\u00f1artu, \u201cControl motor prefonatorio de la postura vocal a trav\u00e9s de retroalimentaci\u00f3n somatosensorial\u201d, LXXX Congreso Chileno de Otorrinolaringolog\u00eda y Cirug\u00eda de Cabeza y Cuello (ORL2024), Nov 20-23 2024, Valdivia, Chile.<\/li>
        10. A. Araya, E. Ibarra, M. Za\u00f1artu \u201cYOLOv8 y UNet para la Segmentaci\u00f3n de la Glotis en Videos de Endoscop\u00eda Vocal de Alta Velocidad\u201d, XVII Congreso Anual de Ingenier\u00eda Biom\u00e9dica,\u200b 7-9 Nov, 20204, Concepci\u00f3n, Chile.<\/li>
        11. M. Za\u00f1artu, \u201cNeurocomputational analysis of impaired auditory-motor function for laryngeal motor control\u201d, 187th Meeting of the Acoustical Society of America, ASA Virtual Fall 2024, Nov 19-21, 2024.<\/li>
        12. J. A. Parra, E. Ibarra, C. Calvache, R. E. Hillman, M. Za\u00f1artu, \u201cInferring Physiological Parameters in Phonotraumatic Vocal Hyperfunction: Insights from Ambulatory Voice Data\u201d, Proceedings of PEVOC 2024, Santander, Spain, 2024.<\/li>
        13. J. J. Deng, B. D. Erath, M. Za\u00f1artu, S. D. Peterson, \u201cModelling the influence of localized edema on vocal fold kinetics and kinematics\u201d, Proceedings of 13th International Conference on Voice Physiology and Biomechanics (ICVPB 2024), Erlangen, Germany, 2024.<\/li>
        14. M. Motie-Shirazi, M. Za\u00f1artu, S. D. Peterson, B. D. Erath, \u201cExperimental measurement of the internal tissue velocity in a self-oscillating synthetic vocal fold model\u201d, Proceedings of 13th International Conference on Voice Physiology and Biomechanics (ICVPB 2024), Erlangen, Germany, 2024.<\/li>
        15. J. Martinez, L. Rojas, M. Za\u00f1artu, \u201cInvestigating the correlation between diverse vocal tasks and intermuscular coherence: a pilot study using high-density electromyography\u201d, Proceedings of 13th International Conference on Voice Physiology and Biomechanics (ICVPB 2024), Erlangen, Germany, 2024.<\/li>
        16. V. M. Espinoza, J.P. Cort\u00e9s, R. Ortega, C. Castro, , M. Za\u00f1artu, \u201dOptimizing frequency response in ambulatory voice monitoring: Aligning laboratory accelerometer data for enhanced voice disorder assessment\u201d, Proceedings of 13th International Conference on Voice Physiology and Biomechanics (ICVPB 2024), Erlangen, Germany, 2024.<\/li>
        17. L. Z-Rivera, C. Castro, J. Cuadros, J. P. Cort\u00e9s, P. Prado, M. Za\u00f1artu, \u201cAcoustic and neurophysiological aspects of lombard effect\u201d , Proceedings of 13th International Conference on Voice Physiology and Biomechanics (ICVPB 2024), Erlangen, Germany, 2024.<\/li>
        18. C. Sorolla, J. A. Parra, E. Ibarra, G. Alzamendi, M. Za\u00f1artu, \u201cForward mapping estimation for laryngeal motor control using machine learning techniques\u201d, Proceedings of 13th International Conference on Voice Physiology and Biomechanics (ICVPB 2024), Erlangen, Germany, 2024.<\/li>
        19. E. Ibarra, J. Arias, Juan Godino, D. Mehta, M. Za\u00f1artu, \u201cImproved subglottal pressure estimation from neck-surface vibrations using transfer learning of deep neural networks trained from voice production model\u201d, Proceedings of 13th International Conference on Voice Physiology and Biomechanics (ICVPB 2024), Erlangen, Germany, 2024.<\/li>
        20. C. Calvache, J. Parra, L. Solaque, M. Za\u00f1artu, \u201cIntegrating biomechanical models, ambulatory monitoring, and statistical analysis for understanding non-phonotraumatic vocal hyperfunction\u201d Proceedings of 13th International Conference on Voice Physiology and Biomechanics (ICVPB 2024), Erlangen, Germany, 2024.<\/li>
        21. E. C. Willis, B. Kevelson, J. H. Van Stan, M. Za\u00f1artu, R. E. Hillman, D. D. Mehta, \u201cAdding vibrato-based ambulatory singing measures in the clinical assessment of patients with vocal hyperfunction\u201d, Proceedings of 13th International Conference on Voice Physiology and Biomechanics (ICVPB 2024), Erlangen, Germany, 2024.<\/li>
        22. F. Contreras-Ruston, A. Callen, M. Za\u00f1artu, Castillo-Allende, J. Saavedra-Garrido, A. Ochoa-Mu\u00f1oz, E. J. Hunter, J. Navarra, S. A. Kotz, \u201cVoice loudness, self-assessment, and auditory-sensory feedback in voice production in Parkinson\u2019s disease\u201d, Proceedings of 13th International Conference on Voice Physiology and Biomechanics (ICVPB 2024), Erlangen, Germany, 2024.<\/li>
        23. E. Ibarra, G. A. Alzamendi, M. Za\u00f1artu, \u201cEstimating the biomechanics of vocal function from glottal airflow measures using constrained extended Kalman filter and body cover model of the vocal folds\u201d, Proceedings of the Annual Voice Foundation Symposium 2023; Philadelphia, PA.<\/li>
        24. J. Martinez, M. Za\u00f1artu, \u201cComparative Analysis of Intrinsic Muscle Activation of the Larynx Using the EMG Decomposition Method in Different Phonatory Tasks. A Preliminary Study\u201d, Proceedings of the Annual Voice Foundation Symposium 2023; Philadelphia, PA.<\/li>
        25. J. Parra, BS, G. Alzamendi, M. Za\u00f1artu, \u201cNodule Approximation in a Triangular Shaped Vocal Fold Model\u201c, Proceedings of the Annual Voice Foundation Symposium 2023; Philadelphia, PA.<\/li>
        26. J. P. Cort\u00e9s, C. Castro, P. Prado, L. Zepeda, V. Espinoza, and M. Za\u00f1artu, “Exploring the Lombard effect in participants with non-phonotraumatic vocal hyperfunction using a simplified version of the DIVA model”, 51st Anniversary Symposium: Care of the Professional Voice, June 1 \u2013 5, Philadelphia, PA, 2022.<\/li>
        27. V. Espinoza, J. P. Cort\u00e9s, M. Za\u00f1artu, G. Alzamendi, J. I. Yuz, D. D. Mehta,and R. E. Hillman \u201cModeling and Estimation of Neck-Surface Skin and Subglottal Systems with an ARMA-based model\u201d, 51st Anniversary Symposium: Care of the Professional Voice, June 1 \u2013 5, Philadelphia, PA, 2022.<\/li>
        28. H. R. Weerathunge, G. A. Alzamendi, G. J. Cler, F. H. Guenther, C. E. Stepp, M. Za\u00f1artu “LaDIVA: A neurocomputational model providing laryngeal motor control for speech acquisition and production” Madonna Motor Speech Conference, Feb 17-20, 2022, Charleston, South Carolina.<\/li>
        29. M. Za\u00f1artu, “Ac\u00fastica de la voz cantada y de instrumentos musicales”, 77\u00b0 Congreso Chileno de Otorrinolaringolog\u00eda 2021, 9-12 Noviembre 2021, online.<\/li>
        30. Emiro J. Ibarra, Jes\u00fas A. Parra, Gabriel A. Alzamendi, Juan P. Cort\u00e9s, V\u00edctor M. Espinoza, Mat\u00edas Za\u00f1artu, “M\u00e9todo para la estimaci\u00f3n de la funci\u00f3n vocal usando un sensor de aceleraci\u00f3n”, 77\u00b0 Congreso Chileno de Otorrinolaringolog\u00eda 2021, 9-12 Noviembre 2021, online.<\/li>
        31. J. Parra, M. Za\u00f1artu “Descubriendo par\u00e1metros f\u00edsicos subyacentes a partir de las distribuciones ambulatorias diarias de un modelo matem\u00e1tico de voz”, 77\u00b0 Congreso Chileno de Otorrinolaringolog\u00eda 2021, 9-12 Noviembre 2021, online.<\/li>
        32. Mohsen Motie-Shirazi, Mat\u00edas Za\u00f1artu, Sean Peterson, Byron Erath, “Fluid-structure energy exchange during phonation: investigation of dissipated collision energy by direct measurement of internal tissue velocity”, 74th Annual Meeting of the APS Division of Fluid Dynamics, November 21\u201323, 2021, Phoenix, Arizona<\/li>
        33. G. A. Alzamendi, S. D. Peterson, B. D. Erath, M. Za\u00f1artu, \u201cInvestigating antagonistic muscle control in non-phonotraumatic vocal hyperfunction using a triangular body-cover model of the vocal folds\u201d, 14th International Conference on Advances in Quantitative Laryngology, Voice and Speech Research, AQL 2021, June 7-10 2021, Online.<\/li>
        34. R. Manr\u00edquez, V. M. Espinoza, C. Castro, J. P. Cort\u00e9s, and M. Za\u00f1artu, Calibration Uncertainty of Impedance-based Inverse Filtering from Neck Surface Acceleration \u201d, 14th International Conference on Advances in Quantitative Laryngology, Voice and Speech Research, AQL 2021, June 7-10 2021, Online.<\/li>
        35. E. J. Ibarra, J. A. Parra, G. A. Alzamendi, J. P. Cort\u00e9s, V. M. Espinoza, M. Za\u00f1artu \u201cA Machine Learning Framework for Estimating Subglottal Pressure during Running Speech from Glottal Airflow measures, 14th International Conference on Advances in Quantitative Laryngology, Voice and Speech Research, AQL 2021, June 7-10 2021, Online.<\/li>
        36. M. Motie-Shirazi, M. Za\u00f1artu, S. D. Peterson, B. D. Erath,\u00a0\u201cInfluence of a posterior glottal opening on dissipated collision power: synthetic self-oscillating vocal fold investigations\u201d,\u00a014th International Conference on Advances in Quantitative Laryngology, Voice and Speech Research, AQL 2021, June 7-10 2021, Online.<\/li>
        37. J. A. Parra, E. Ibarra, G. A. Alzamendi, J. P. Cort\u00e9s, M. Za\u00f1artu.\u201dDiscovering Underlying Physical Parameters From Daily Phonotrauma Index Distributions using Monte Carlo Simulations of a Low-Dimensional Voice Production Model\u201d, 14th International Conference on Advances in Quantitative Laryngology, Voice and Speech Research, AQL 2021, June 7-10 2021, Online.<\/li>
        38. C. Castro, V. Espinoza, J. Pablo Cortes, P. Prado, M. Za\u00f1artu, \u201cLombard effect retention after noise removal in patients with phonotraumatic and non-phonotraumatic vocal hyperfunction\u201d,\u00a014th International Conference on Advances in Quantitative Laryngology, Voice and Speech Research, AQL 2021, June 7-10\u00a02021, Online.<\/li>
        39. M. D. Groll, S. D. Peterson, M. Za\u00f1artu, J. M. Vojtech, C. E. Stepp \u201cEvaluating the relationship between relative fundamental frequency and the end of vocal fold collision in voicing offset\u201d, \u00a014th International Conference on Advances in Quantitative Laryngology, Voice and Speech Research, AQL 2021, June 7-10\u00a02021, Online.<\/li>
        40. Javier G. Fontanet, Juan I. Yuz, Mat\u0013\u0010\u00edas Za\u00f1artu, “\u0003Parametric Identi\ffication of a Linear Time Invariant Model for a Subglottal System, 19th IFAC Symposium on System Identification, (SYSID 2021), July 13-16 2021, Online.<\/li>
        41. M.Za\u00f1artu, D.D. Mehta, and R. E. Hillman, “Why is the clinical assessment of vocal aerodynamics relevant?\u201d, The 2021 American Society of Thermal and Fluids Engineers (ASTFE) Conference, May 26-28, 2021.<\/li>
        42. Mohsen Motie-Shirazi, Matias Za\u00f1artu, Sean D. Peterson, Byron D. Erath, “Compensation for a Posterior Glottal Opening Leads To Vocal Fold Trauma: Measurements of Contact Force as a Function of Aerodynamic and Kinematic Measures\u201d, SB3C2020, Summer Biomechanics, Bioengineering and Biotransport Conference, June 17-20, 2020, Vail, CO, USA.<\/li>
        43. J. A. Undurraga, J. Lienart, P. Prado, M. Za\u00f1artu, D. McAlpine, “On the relation between binaural temporal processing and speech understanding in noise” 43rd Mid-Winter Meeting of the Association for Research in Otolaryngology, San Jos\u00e9, CA Jan 25-29, 2020.<\/li>
        44. P. Prado-Gutierrez, M. Otero, E. Martinez-Montes, A. Weinstein, M. J. Escobar, W. El-Deredy, M. Za\u00f1artu. \u201cUnexplored characteristic of the steady state responses: from adaptation to persistence\u201d, Listen & Learn Workshop 2019, Hearing Hub Macquarie University, Sydney, Australia, 18-19 November 2019.<\/li>
        45. P. Prado-Gutierrez, M. Otero, E. Martinez-Montes, A. Weinstein, M. J. Escobar, W. El-Deredy, M. Za\u00f1artu. \u201cUnexplored characteristic of the steady state responses: from adaptation to persistence\u201d, 2019 Australasian Auditory Neuroscience Workshop, Adelaide, Australia, 30 November 2019.<\/li>
        46. McKenna, V.S., Alvar, A.M., Za\u00f1artu, M., Malandraki, G.A., & Huber, J.E. “Neck-surface accelerometry in voice and swallowing research”. Mi-Bio Summit on Flexible and Stretchable Bioelectronics, West Lafayette, IN, USA, July 29-31. poster<\/a><\/li>
        47. Gabriel A. Alzamendi, Christian Castro Toro, Sean D. Peterson, Byron D. Erath, Mat\u00edas Za\u00f1artu, \u201cModeling Modal, Breathy, and Pressed Voice Qualities: The Role of Intrinsic Laryngeal Muscle Activation\u201d, 48th Voice Foundation Annual Symposium: Care of the Professional Voice, Philadelphia, Pennsylvania, May 29 – June 2, 2019.<\/li>
        48. Juan Pablo Cort\u00e9s, V\u00edctor M. Espinoza, Christian Castro Toro, Rodrigo Manr\u00edquez Peralta, Alba Testart Tobar, Mat\u00edas Za\u00f1artu, \u201cClassification Performance of Paired Subjects with Vocal Hyperfunction in the Presence of Subglottal Inverse Filtering Uncertainties: Pilot Study under Laboratory Conditions\u201d, 48th Voice Foundation Annual Symposium: Care of the Professional Voice, Philadelphia, Pennsylvania, May 29 – June 2, 2019.<\/li>
        49. Pavel Prado, \u00c1lvaro Cavieres, Lucia Zepeda, Alejandro Weinstein, Mat\u00edas Za\u00f1artu, Sonja Kotz, Wael El-Deredy, \u201cUnderstanding Cortical Activation Associated with Corollary Discharge during Speech Production: The Role of Active and Passive Listening\u201d, 48th Voice Foundation Annual Symposium: Care of the Professional Voice, Philadelphia, Pennsylvania, May 29 – June 2, 2019.<\/li>
        50. Mat\u00edas Za\u00f1artu, \u201cEstimating Vocal Fold Contact Pressure In Vivo from Raw Laryngeal High-Speed Videoendoscopy using a Hertz Contact Model\u201d, invited talk at the special session \u201cQuantifying Vocal Fold Contact Pressure using Direct and Indirect Measurement Modalities\u201d, 48th Voice Foundation Annual Symposium: Care of the Professional Voice, Philadelphia, Pennsylvania, May 29 – June 2, 2019.<\/li>
        51. Pavel Prado, Christian Castro, Alejandro Weinstein, Luc\u00eda Zepeda, Juan Mucarquer and Mat\u00edas Za\u00f1artu,\u201d Cortical Mechanisms Controlling the Speech Production During Lombard Effect: An EEG Study.\u201d, The 13th International Conference on Advances in Quantitative Laryngology, Voice and Speech Research, Montreal, Quebec, Canada, June 2 – 4, 2019.<\/li>
        52. Jonathan Deng, Paul Hadwin, Mohsen Motie-Shirazi, Byron Erath, Mat\u00edas Za\u00f1artu And Sean Peterson,\u201d Extracting Reduced-Order Model Parameters from High-Speed Video Of Silicone Vocal Folds Using A Gradient-Based Approach\u201d, The 13th International Conference on Advances in Quantitative Laryngology, Voice and Speech Research, Montreal, Quebec, Canada, June 2 – 4, 2019.<\/li>
        53. Paul Hadwin, Mohsen Motie-Shirazi, Byron Erath, Mat\u00edas Za\u00f1artu And Sean Peterson,\u201d Estimating Patient-Specific Contact Pressures Using A Finite Element Model\u201d, The 13th International Conference on Advances in Quantitative Laryngology, Voice and Speech Research, Montreal, Quebec, Canada, June 2 – 4, 2019.<\/li>
        54. Mohsen Motieshirazi, Sean Peterson, Matias Zanartu, Daryush Mehta, James Kobler, Robert Hillman And Byron Erath, \u201cContact Pressure and Length as A Function of Posterior Glottal Area: Synthetic Vocal Fold Investigations\u201d, The 13th International Conference on Advances in Quantitative Laryngology, Voice and Speech Research, Montreal, Quebec, Canada, June 2 – 4, 2019.<\/li>
        55. Jonathan Lin, Victor Espinoza, Matias Zanartu, Katherine Marks And Daryush Mehta, \u201cAccelerometer-Based Prediction of Subglottal Pressure In Healthy Speakers Producing Non-Modal Phonation\u201d, The 13th International Conference on Advances in Quantitative Laryngology, Voice and Speech Research, Montreal, Quebec, Canada, June 2 – 4, 2019.<\/li>
        56. Daryush Mehta, James Kobler, Mat\u00edas Za\u00f1artu, Byron Erath, Mohsen Motie-Shirazi, Sean Peterson, Robert Petrillo And Robert Hillman, \u201cVocal Fold Collision Pressure Amplitude and Timing In An Excised Hemilarynx Setup With Dual High-Speed Videoendoscopy\u201d, The 13th International Conference on Advances in Quantitative Laryngology, Voice and Speech Research, Montreal, Quebec, Canada, June 2 – 4, 2019.<\/li>
        57. Juan P. Cort\u00e9s, Gabriel Alzamendi, Alejandro Weinstein, Juan Yuz, V\u00edctor Espinoza, Daryush Mehta, Jarrad Van Stan, Robert Hillman And Mat\u00edas Za\u00f1artu, \u201cUncertainty Of Ambulatory Airflow Estimates And Its Effect On The Classification Of Phonotraumatic Vocal Hyperfunction\u201d, The 13th International Conference on Advances in Quantitative Laryngology, Voice and Speech Research, Montreal, Quebec, Canada, June 2 – 4, 2019.<\/li>
        58. Gabriel A. Alzamendi, Sean D. Peterson, Byron Erath And Mat\u00edas Za\u00f1artu, \u201cUpdated Rules for Constructing A Triangular Body-Cover Model Of The Vocal Folds From Intrinsic Laryngeal Muscle Activation\u201d, The 13th International Conference on Advances in Quantitative Laryngology, Voice and Speech Research, Montreal, Quebec, Canada, June 2 – 4, 2019.<\/li>
        59. Gabriel Alzamendi, Sean Peterson, Byron ErathandMat\u00edas Za\u00f1artu, \u201cOn the Role Of Simultaneous Observations For A Bayesian Estimation Of Subglottal Pressure And Laryngeal Muscle Activation\u201d, The 13th International Conference on Advances in Quantitative Laryngology, Voice and Speech Research, Montreal, Quebec, Canada, June 2 – 4, 2019.<\/li>
        60. V\u00edctor Espinoza, Daryush Mehta, Jarrad Van Stan, Robert HillmanandMatias Za\u00f1artu, \u201cComparing Accelerometer and Oral Airflow Based Aerodynamic Measures In Patients With Vocal Hyperfunction\u201d ,The13thInternationalConferenceonAdvancesin Quantitative Laryngology, Voice and Speech Research, Montreal, Quebec, Canada, June 2 – 4, 2019.<\/li>
        61. Dimitar Deliyski, Hamzeh Ghasemzadeh, David Ford, Daryush Mehta, Milen Shishkov, Brett Bouma, James Kobler, Mat\u00edas Za\u00f1artu, Alessandro De Alarcon and Robert Hillman, \u201cLaser-Projection System and Method For 3D Calibrated Laryngeal Measurements Using Transnasal Flexible High-Speed Videoendoscopy\u201d, The 13th International Conference on Advances in Quantitative Laryngology, Voice and Speech Research, Montreal, Quebec, Canada, June 2 – 4, 2019.<\/li>
        62. M. Za\u00f1artu “Cortical Mechanisms Controlling Speech Production During Altered Auditory Feedback: An EEG Study of The Lombard Effect”, 2nd International Hearing Research Symposium IHeaR 2019: Closing the auditory efferent Loop, April 24 – 26, Buenos Aires, Argentina.<\/li>
        63. P. Prado, C. Christian, A. Weinstein, L. Zepeda, M. Za\u00f1artu, “Cortical activation of healthy volunteers and muscle tension dysphonia (MTD) patients during Lombard Effect: an EEG study”, Joint meeting of the Chilean Societies of Biology, Genetics, Evolution, and Neuroscience, November 20-22, Puerto Varas, Chile.<\/li>
        64. M. Za\u00f1artu, \u201dEndoscop\u00eda lar\u00edngea de alta velocidad y monitoreo ambulatorio de la voz: Avances en el an\u00e1lisis objetivo de la funci\u00f3n vocal\u201d, LXXV Congreso Chileno de Otorrinolaringolog\u00eda, 21-24 Noviembre, Santa Cruz, Chile.<\/li>
        65. Manr\u0131quez, R; Peterson, S.D; Prado, P; Orio, P; Za\u00f1artu, M. \u201cModelamiento de fluctuaciones aleatorias en la activaci\u00f3n muscular lar\u00edngea para modelos matem\u00e1ticos de las cuerdas vocales\u201d, LXXV Congreso Chileno de Otorrinolaringolog\u00eda, 21-24 Noviembre, Santa Cruz, Chile.<\/li>
        66. C. Castro, P. Prado, D. Marfull, A. Testart, V. Espinoza, M. Za\u00f1artu, \u201dEfecto Lombard y disfon\u00eda musculo tensional: cambios ac\u00fasticos, aerodin\u00e1micos y biomec\u00e1nicos\u201d, LXXV Congreso Chileno de Otorrinolaringolog\u00eda, 21-24 Noviembre, Santa Cruz, Chile.<\/li>
        67. A. Testart, C. Castro, G. Galindo, F. P\u00e9rez, M. Za\u00f1artu, “Nuevo m\u00e9todo de an\u00e1lisis visual de videoendoscop\u00eda lar\u00edngea de alta velocidad para el estudio de asimetr\u00edas vibratorias en patolog\u00edas vocales\u201d, LXXV Congreso Chileno de Otorrinolaringolog\u00eda, 21-24 Noviembre, Santa Cruz, Chile.<\/li>
        68. V. Espinoza, J. Cort\u00e9s, M. Za\u00f1artu, \u201cM\u00e9todos de Evaluaci\u00f3n Cl\u00ednica de la Voz basados en medidas Aerodin\u00e1micas y Vibroac\u00fasticas\u201d, LXXV Congreso Chileno de Otorrinolaringolog\u00eda, 21-24 Noviembre, Santa Cruz, Chile.<\/li>
        69. J.P. Cortes, V. M. Espinoza, D. Mehta, J. Van Stan, R. E. Hillman, M. Za\u00f1artu, \u201cEstimaci\u00f3n de medidas aerodin\u00e1micas ambulatorias con un filtro de Kalman para la evaluaci\u00f3n de la hiperfunci\u00f3n vocal\u201d, LXXV Congreso Chileno de Otorrinolaringolog\u00eda, 21-24 Noviembre, Santa Cruz, Chile.<\/li>
        70. M. Diaz, M. Za\u00f1artu, C. Stepp, “How to construct your own high-speed flexible video endoscopy system for research and clinical applications”, The Fall Voice Conference 2018, October 25-27, Seattle, Washington, USA.<\/li>
        71. V. Espinoza, D. Mehta, J.VanStan,R. E. Hillman, M. Za\u00f1artu, “Accelerometer-based aerodynamic measures for subjects with phonotraumatic hyperfunction: An in-laboratory study”, 11th International Conference on Voice Physiology and Biomechanics, August 1-3, 2018, East Lansing, Michigan, USA.<\/li>
        72. C. Castro, P. Prado, D.Marfull, A. Testart, A. Weinstein, L. Zepeda, V. Espinoza, M. Za\u00f1artu, “Lombard effect and muscle tension dysphonia: acoustic, aerodynamic, biomechanical and cortical changes”, 11th International Conference on Voice Physiology and Biomechanics, August 1-3, 2018, East Lansing, Michigan, USA.<\/li>
        73. J.P. Cortes, V. M. Espinoza, M. Ghassemi, D. Mehta, J. Van Stan, R. Hillman, J. Guttag, M. Za\u00f1artu, “Aerodynamic Ambulatory Assessment for Phonotraumatic Vocal Hyperfunction”, 11th International Conference on Voice Physiology and Biomechanics, August 1-3, 2018, East Lansing, Michigan, USA.<\/li>
        74. J.P. Cortes, V. M. Espinoza, M. Ghassemi, D. Mehta, J. Van Stan, R. Hillman, J. Guttag, M. Za\u00f1artu, “Using Aerodynamic Features and Their Uncertainty for the Ambulatory Assessment of Phonotraumatic Vocal Hyperfunction” IEEE International Conference on Biomedical and Health Informatics, March 4-7, 2018 in Las Vegas, NV-USA.<\/li>
        75. D.Deliyski, D. Mehta , M. Za\u00f1artu, M. Shishkov, B. Bouma, A. de Alarcon R. Hillman, “Laser-Calibrated System for Laryngeal Transnasal Flexible High-Speed Videoendoscopy”, The Voice Foundation\u2019s 47th Annual Symposium: Care of the Professional Voice, May 30-June 3, 2018.<\/li>
        76. A. Testart, G. Galindo, C. Castro, M. Za\u00f1artu. \u201cA new visual probabilistic assessment of vocal fold vibration\u201d, The 12th International Conference on Advances in Quantitative Laryngology, Voice and Speech Research, Hong Kong, October 17-21, 2017.<\/li>
        77. J. P. Cort\u00e9s, M. Za\u00f1artu. \u201cAmbulatory classification of patients with muscle tension dysphonia vs. control group\u201d, The 12th International Conference on Advances in Quantitative Laryngology, Voice and Speech Research, Hong Kong, October 17-21, 2017.<\/li>
        78. R. Manr\u0131quez, S. D Peterson, P. Prado, P. Orio, M. Za\u00f1artu, \u201cLaryngeal muscle activation noise for physiologically-based models of phonation\u201d, The 12th International Conference on Advances in Quantitative Laryngology, Voice and Speech Research, Hong Kong, October 17-21, 2017.<\/li>
        79. R. Manr\u0131quez, S. D Peterson, P. Prado, P. Orio, M. Za\u00f1artu, “Modeling Laryngeal Muscle Activation Noise for Low-Order Physiological Based Speech Synthesis”, Proc. Interspeech 2017, pp 1378- 1382, Stockholm, Sweden, August 2017 link<\/a>– pdf<\/a><\/li>
        80. V. M. Espinoza, M. Za\u00f1artu, J. H. Van Stan, D. D. Mehta, and R. E. Hillman “Uncertainty of glottal airflow estimation during continuous speech using impedance-based inverse filtering of the neck-surface acceleration signal”, Fall 2017 meeting of the ASA, Boston, USA, June 25-29, 2017. pdf<\/a><\/li>
        81. M.Borsky, M. Cocude, D. D. Mehta, M. Za\u00f1artu, J. Gudnason, \u201cClassification of voice modes using neck-surface accelerometer data\u201d, IEEE ICASSP 2017, New Orleans, March 5-9 2017. link<\/a><\/li>
        82. R. E. Hillman, D. Mehta, C. Stepp, M. Zanartu “Hyperfunctional Voice Disorders: Current Results, Clinical Implications, & Future Directions of a Multidisciplinary Research Program”, ASHA 2016, Philadelphia, PA, 17 -19 November 2016. link<\/a><\/li>
        83. G. Galindo, S. D. Peterson, M. Za\u00f1artu, “A Bayesian virtual sensor with a subject-speci\u001ffic model of vocal folds”. IBERSENSOR2016, Vi\u00f1a del Mar, 26-28 Oct,2016. link<\/a><\/li>
        84. C. Castro, P. Prado, M. Za\u00f1artu, “A comprehensive multi-sensing system to objectively assess the Lombard E\u001effect”. IBERSENSOR2016, Vi\u00f1a del Mar, 26-28 Oct,2016. link<\/a><\/li>
        85. R. E. Hillman, D. Mehta, C. Stepp, J. Van Stan, M. Zanartu “Objective assessment of vocal hyperfunction”, Spring 2016 Acoustical Society of America meeting, Salt Lake City, Utah, 23 -27 May 2016. link<\/a><\/li>
        86. M. Za\u00f1artu, G. Galindo, S. D. Peterson, B. E. Erath, R. E. Hillman ,”Modeling the pathophysiology of vocal hyperfunction” 10th International Conference on Voice Physiology and Biomechanics, ICVPB 2016, March 14-17, 2016, Vi\u00f1a del Mar, Chile. link<\/a><\/li>
        87. V. Espinoza, M. Za\u00f1artu, D. Mehta, J. Van Stan, R. E. Hillman “Differentiating between females with vocal hyperfunction and matched-controls using inverse filtered aerodynamic measures\u201d, 10th International Conference on Voice Physiology and Biomechanics, ICVPB 2016, March 14-17, 2016, Vi\u00f1a del Mar, Chile. link<\/a><\/li>
        88. C. Castro, A. Testart, G. E. Galindo, M. Za\u00f1artu, “Effects of resonance tube phonation in water in the asymmetric oscillatory entrainment of unilateral vocal fold paralysis”, 10th International Conference on Voice Physiology and Biomechanics, ICVPB 2016, March 14-17, 2016, Vi\u00f1a del Mar, Chile. link<\/a><\/li>
        89. M. Diaz, G. E. Galindo, V. Espinoza, M. Za\u00f1artu, “Vocal fold contact pressure estimation over laryngeal high speedvideoendoscopybasedonavocaledgetrackingmethod using Kalman Filter and Hertzian Impact model”, 10th International Conference on Voice Physiology and Biomechanics, ICVPB 2016, March 14-17, 2016, Vi\u00f1a del Mar, Chile. link<\/a><\/li>
        90. B. Erath, S. Peterson, M. Za\u00f1artu, “Rethinking vocal fold contact: The role of viscous dissipation”, 10th International Conference on Voice Physiology and Biomechanics, ICVPB 2016, March 14-17, 2016, Vi\u00f1a del Mar, Chile. link<\/a><\/li>
        91. J. P. Cortes, V. Espinoza, M. Za\u00f1artu, M. Ghassemi , J. V. Guttag, D. Mehta, J. Van Stan, R. E. Hillman, “Discriminating patients with vocal fold nodules from matched controls using acoustic and aerodynamic features from ambulatory voice monitoring data”, 10th International Conference on Voice Physiology and Biomechanics, ICVPB 2016, March 14-17, 2016, Vi\u00f1a del Mar, Chile. link<\/a><\/li>
        92. G. Galindo, M. Za\u00f1artu, S. Peterson, B. Erath, “Constructing a subject-specific lumped-mass model from clinical data using Bayesian estimation”, 10th International Conference on Voice Physiology and Biomechanics, ICVPB 2016, March 14-17, 2016, Vi\u00f1a del Mar, Chile. link<\/a><\/li>
        93. F. Acevedo, A. Gonzalez, M. Za\u00f1artu, “Vocal fold activity detection in a neck surface acceleration signal”, 10th International Conference on Voice Physiology and Biomechanics, ICVPB 2016, March 14-17, 2016, Vi\u00f1a del Mar, Chile. link<\/a><\/li>
        94. M. Za\u00f1artu “Clinical Applications of Numerical Models of Voice Production”, Keynote presentation, 11th International Conference on Advances in Quantitative Laryngology, Voice and Speech Research (AQL 2015), London, UK, 8-10 April 2015. link<\/a><\/li>
        95. D. Cook, D. Robertson, and M. Za\u00f1artu “Population-Based Sensitivity Analysis of a Two-Mass Model of the Vocal Folds”, 11th International Conference on Advances in Quantitative Laryngology, Voice and Speech Research (AQL 2015), London, UK, 8-10 April 2015. link<\/a><\/li>
        96. M. Encina, J.I. Yuz, M Za\u00f1artu andG. A. Galindo. Vocal Fold Modeling through the port-Hamiltonian Systems Approach. In IEEE Multiconference on Systems and Control – MSC 2015, Sydney, Australia, 21-23 September 2015. link<\/a><\/li>
        97. G. Galindo, M. Za\u00f1artu, J. Yuz, “A discrete-time model for the vocal folds”, IEEE EMBS International Student Conference, Concepci\u00f3n, Chile, November 2014. pdf<\/a><\/li>
        98. V. Espinoza, M. Za\u00f1artu. \u201cEstudio Din\u00e1mico de Par\u00e1metros de Filtrado Inverso para el Seguimiento Ambulatorio de la Funci\u00f3n Vocal\u201d IX Congreso Iberoamericano de Ac\u00fastica, FIA2014, Valdivia, Chile, 1-2 December 2014. pdf<\/a><\/li>
        99. R. E Hillman, D. D. Mehta, J. H. Van Stan, M. Za\u00f1artu, M. Ghassemi, J. Guttag. “Subglottal ambulatory monitoring of vocal function to improve voice disorder assessment” Fall 2014 Acoustical Society of America meeting, Indianapolis, Indiana, 27\u201331 October 2014.<\/li>
        100. M. Za\u00f1artu, G. Galindo, B. D. Erath, S. D. Peterson, and R. E. Hillman, “Mimicking Vocal Hyperfunction using a Numerical Model of Speech Production with a Posterior Glottal Opening”, ICVPB 2014, Salt Lake City, USA, April 2014.<\/li>
        101. M. Za\u00f1artu, V. Espinoza, D. D. Mehta, J. H. Van Stan, H. A. Cheyne, M. Ghassemi, J. V. Guttag, and R. E. Hillman, “Toward an objective aerodynamic assessment of vocal hyperfunction using a voice health monitor”, 8th International workshoponModelsand Analysis of Vocal Emissions for Biomedical Applications, Firenze, Italy, 16-18 December, 2013. pdf<\/a><\/li>
        102. A. F. Llico, M. Za\u00f1artu, D. D. Mehta, J.H. Van Stan, H. A. Cheyne II, A. J. Gonz\u00e1lez, M. Ghassemi, G.R. Wodicka, J. V. Guttag, and R. E. Hillman, “Incorporating real-time biofeedback capabilities into a voice health monitor”, 8th International workshoponModelsand Analysis ofVocalEmissionsfor Biomedical Applications, Firenze, Italy, 16-18 December,2013. pdf<\/a><\/li>
        103. M. Za\u00f1artu, J. C. Ho, D. D. Mehta, R. E. Hillman, and G. R. Wodicka, “Acoustic coupling during incomplete glottal closure and its effect on the inverse filtering of oral airflow”, Invited talk, International Congress on Acoustics, Montreal, Canada, June 2013. POMA Volume 19, pp. 060241-7. link<\/a> – pdf<\/a><\/li>
        104. M. Za\u00f1artu, B. D. Erath, S. D. Peterson, R. E. Hillman, and G. R. Wodicka, “Modeling incomplete glottal closure due to a posterior glottal opening and its effects on the dynamics of the vocal folds”, Invited talk, International Congress on Acoustics, Montreal, Canada, June 2013. POMA Volume 19, pp. 060239-6. link<\/a> – pdf<\/a><\/li>
        105. B. D. Erath, D. E. Sommer, M. Za\u00f1artu, S. D. Peterson, “Nonlinearities in block-type reduced-order vocal fold models with asymmetric tissue properties”, Invited talk, International Congress on Acoustics, Montreal, Canada, June 2013.POMA Volume 19, pp. 060243-5 link<\/a><\/li>
        106. R. E. Hillman, J. Van Stan, D. D. Mehta, M. Za\u00f1artu, M. Ghassemi, H. A. Cheyne, J. V. Guttag, “Future directions in the development of ambulatory monitoring for clinical voice assessment”, Invited talk, Proceedings of the 10th International Conference on Advances in Quantitative Laryngology, Voice and Speech Research, Cincinnati, Ohio, USA, June 3-4, 2013. pdf<\/a><\/li>
        107. D. D. Mehta, M. Za\u00f1artu, J. Van Stan, S. W. Feng, H. A. Cheyne, and R. E. Hillman, “Smartphone-based detection of voice disorders by long-term monitoring of neck acceleration features”, IEEE 10th Annual Wearable and Implantable Body Sensor Networks Conference, Cambridge, May 2013. link<\/a> – pdf<\/a><\/li>
        108. M. Za\u00f1artu “Filtro inversobasadoenla impedanciaysuaplicaci\u00f3n en la producci\u00f3n de la voz”, Primer Congreso Iberoamericano de Voz Profesional y Cl\u00ednica Vocal, Santiago, Octubre 2012.- pdf<\/a><\/li>
        109. M. Diaz y M. Za\u00f1artu “Modelamiento num\u00e9rico de las cuerdasvocalesbajovariacionestemporalesdeltractovocal”, Terceras Jornadas Chilenas de Ingenier\u00eda Biom\u00e9dica JCIB 2012, Vi\u00f1a del Mar, Chile, Sept 2012. pdf<\/a><\/li>
        110. A. Llico, M. Za\u00f1artu y A. Gonz\u00e1lez “Sistema de seguimiento para el monitoreo ambulatorio de la voz en pacientes con hiperfuncion vocal”, Terceras Jornadas Chilenas de Ingenier\u00eda Biom\u00e9dica JCIB 2012, Vi\u00f1a del Mar, Chile, Sept 2012. pdf<\/a><\/li>
        111. D. M. Mehta, R. Woodbury Listfield, H. A. Cheyne, J. T. Heaton, S.W. Feng, Mat\u00edas Za\u00f1artu, R. E. Hillman, “Duration of ambulatory monitoring needed to accurately estimate voice use”, Interspeech 2012, Portland Oregon, August 2012. pdf<\/a><\/li>
        112. M. Za\u00f1artu , D. D. Mehta, G. R. Wodicka, and R. E. Hillman, “Subglottal impedance-based inverse filtering for the ambulatory monitoring of vocal function: Initial results”, ICVPB 2012, Erlangen Germany, July 2012. pdf<\/a><\/li>
        113. B. D. Erath, S. D. Peterson,M. Za\u00f1artu, and M. W. Plesniak, \u201cAn Updated Wave Reflection Analog Acoustic Solver for Implementation into Reduced-Order Vocal Fold Models\u201d, ICVPB 2012, Erlangen Germany, July 2012.<\/li>
        114. B. D. Erath, S. D. Peterson,M. Za\u00f1artu, and M. W. Plesniak, \u201cA Wave Reflection Analog Extension forReduced OrderVocal Fold Investigations with Asymmetric Intraglottal Flows\u201d, ASME-BED 2012, Fajardo, Puerto Rico,June,2012.<\/li>
        115. D. D. Mehta, D. D. Deliyski, S. M. Zeitels, M. Za\u00f1artu, and R. E. Hillman, “Integration of flexible fiberoptic high-speedvideoendoscopywithtime-synchronized measures of vocal function”, Annual Pacific Voice Conference: Optical Imaging, Therapeutics, and Advanced Technology in Head and Neck Surgery and Otolaryngology, San Francisco, January 21-23 2012. To appear in the Proceedings of SPIE Volume 8207C, pp.345.<\/li>
        116. D. D. Mehta, M. Za\u00f1artu, T. F. Quatieri, D. D. Deliyski, and R. E. Hillman, “Use of laryngeal high-speed videoendoscopysystemstostudyvoiceproductionmechanismsinhumansubjects”, invited paper at the special session The Voice Source: From Physiology to Acoustics, Fall 2011 Acoustical Society of America meeting, San Diego CA, Oct 31 – Nov 4, 2011. link<\/a><\/li>
        117. B. D. Erath, M. Za\u00f1artu, S. D. Peterson and M. W. Plesniak, “Fluid-acoustic interactions and their impact on pathological voiced speech”, DFD11 Meeting of The American Physical Society, November 20-22, 2011, Baltimore, MD, USA. link<\/a><\/li>
        118. D. Sommer, B. D. Erath, M. Za\u00f1artu, S. D. Peterson, “Irregular vocal fold dynamics incited by asymmetric fluid loading in a model of recurrent laryngeal nerve paralysis”, DFD11 Meeting of The American Physical Society, November 20-22, 2011, Baltimore, MD, USA. link<\/a><\/li>
        119. B. D. Erath, M. Za\u00f1artu, S. D. Peterson and M. W. Plesniak, “Multi-physicsmodelingoftheimpactofasymmetricintraglottalflowsonnormalandpathologicalspeech”, The 11th National Congress on Computational Mechanics (USNCCM) Minneapolis, MN, USA,July,2011.<\/li>
        120. B. D. Erath, M. Za\u00f1artu, S. D. Peterson and M. W. Plesniak, \u201cNonlinear Vocal Fold Dynamics in a Two-Mass Model of Speech Arising From Asymmetric Intraglottal Flow\u201d, ASME 2011 Summer Bioengineering Conference, Farmington, PA, USA,June,2011.<\/li>
        121. D. Cook and M. Za\u00f1artu, \u201cPhysical Relations Between Continuum and Lumped Mass Models of Vocal Fold Vibration\u201d, The Voice Foundation’s 40th Annual Symposium: Care of the Professional Voice, Philadelphia, PA,June,2011.<\/li>
        122. D. D. Mehta, M. Za\u00f1artu, T. F.Quatieri, D. D. Deliyski, and R. E. Hillman, \u201cAcoustic correlates of human vocal fold vibratory phase asymmetry through modeling and laryngeal high-speedvideoendoscopy\u201d, 9th International Conference on Advances in Quantitative Laryngology, Voice and Speech Research, Erlangen, Germany, September 2010.<\/li>
        123. M. Za\u00f1artu, B. D. Erath, D. D. Cook, G. R. Wodicka, and M. W. Plesniak, \u201cApplication of asymmetric flows, acoustic coupling, and enhanced parameter estimation to a two-mass model of the vocal folds\u201d, International Conference on Voice Physiology and Biomechanics in Madison WI, July 2010.<\/li>
        124. D. D. Cook and M. Za\u00f1artu, \u201cToward patient-specific vocal fold models: Objective determination of lumped vocal fold model parameters from continuum vocal fold models, International Conference on Voice Physiology and Biomechanics, Madison WI, July 2010.<\/li>
        125. J. C. Ho, M. Za\u00f1artu, and G. R. Wodicka, \u201cAn anatomically-based, time-domain acoustic model of the subglottal system for speech production “, 2009 BMES Annual Fall Meeting, October 2009.<\/li>
        126. M. Za\u00f1artu, J. C. Ho, D. D. Mehta, R. E. Hillman, and G. R. Wodicka, “An impedance-based inverse filtering scheme with glottal coupling”, J. Acoust. Soc. Am. Vol 125(4), page 2638, April 2009.<\/li>
        127. S. M. Lulich, M. Za\u00f1artu, D. D. Mehta, and R. E. Hillman (2009), “Source-filter interaction in the opposite direction: Subglottal coupling and the influence of vocal fold mechanics on vowel spectra during the closed phase “. Proceedings of Meetings on Acoustics (ASA-POMA), Vol.6, pp. 1-14. DOI: 10.1121\/1.3269926. pdf<\/a><\/li>
        128. D. D. Mehta, D. D. Deliyski, S. M. Zeitels, M. Za\u00f1artu, and R. E. Hillman, “Integration of ultra high-speedcolor videoendoscopywithtime-synchronized measures of vocal function”, Eastern Section Meeting of the Triological Society, January 2009. pdf<\/a><\/li>
        129. D. D. Cook, M. Za\u00f1artu ,E. Nauman, L. Mongeau, “Deriving Optimal Low-Order Vocal Fold Models from High-Order Finite Element Models”, 2008 BMES Annual Fall Meeting, October 2008. pdf<\/a><\/li>
        130. M. Za\u00f1artu, R. E. Hillman, and G. R. Wodicka, “Using skin acceleration overlying the suprasternal notch to monitor phonation”, First International Symposium on Audible Acoustics in Medicine and Physiology, September 2008.<\/li>
        131. M. Za\u00f1artu, J. C. Ho, S. Kraman, H. Pasterkamp, J. E. Huber and G. R. Wodicka, “Air-borne and tissue-borne sensitivity of skin radiation acoustic sensors”, J. Acoust. Soc. Am., Acoustics’08 Paris, 2008. pdf<\/a><\/li>
        132. L.J. Chen, M. Za\u00f1artu, D.C. Cook, and L. Mongeau “Effects of acoustic loading on the self-oscillationsofasyntheticmodelofthevocalfolds”9th International Conference on Flow-Induced Vibrations, FIV2008, June 2008, Prague, Czech Republic. pdf<\/a><\/li>
        133. M. Za\u00f1artu, L. Mongeau and G. R. Wodicka, “Exploring the Role of Fluid-Sound Interactions During Phonation Using an Effective Single Mass Model of the Vocal Folds”, The Voice Foundation\u2019s 36th Annual Symposium: Care of the Professional Voice, Philadelphia, PA, June 2007.<\/li>
        134. M. Za\u00f1artu, L. Mongeau and G. R. Wodicka, “Modeling the influence of acoustic loading on laryngeal self-sustained oscillations”, The Journal of the Acoustical Society of America, vol. 119 (5), p. 3300, May 2006. pdf<\/a> – poster<\/a><\/li>
        135. M. Za\u00f1artu \u201cAcoustic analyses for voice studies”, International Meeting on Acoustics, Santiago, October 2003. pdf<\/a><\/li>
        136. G. Grez and M. Zanartu, \u201cPhonetic database of 300 Chilean voices\u201d International Meeting on Acoustics, Santiago, October 2003. (Download original Thesis in pdf<\/a>)<\/li>
        137. M, Za\u00f1artu, D.M. Fox and E.A. Fuentes, \u201cNoise control system for a specific urban transport bus model\u201d Proceedings for INTERNOISE2002, International Conference and Exposition on Noise Control Engineering, Dearborn, MI, USA. August,2002. pdf<\/a><\/li>
        138. J.L De Guevara and M. Za\u00f1artu, \u201cEconomic and Social Impact of the Noise Emission Norm for Public Transportation Buses.\u201d VI Seminar Workshopof CONAMA: Environmental Acoustics and Urban Noise Control: Public Transport\u201d, Santiago, September 2001. pdf<\/a><\/li>
        139. M. Za\u00f1artu and M.J. Glisser, \u201cAnalysis of Temporal and Spatial Variables: Guidelines for an Environmental Impact Study in Highway Environments\u201c Proceedings for INGEACUS 1999, Chilean Conference on Acoustics, Valdivia, November 1999. pdf<\/a> – ppt<\/a><\/li>
        140. E. Collados, D. Pacini, C. Urrea and M. Za\u00f1artu \u201cComparative Analysis of Several Tests to Evaluate Noise Emission from Urban Buses\u201d, Proceedings for INGEACUS 1999, Chilean Conference on Acoustics, Valdivia, November 1999. pdf<\/a><\/li>
        141. M.J. Glisser and M. Za\u00f1artu, \u201cProposed Methodology for Assessment on Environmental Acoustics in Highways in Chile\u201d, Proceedings for V Mexican Conference on Acoustics, Queretaro, 1998. pdf<\/a><\/li>
        142. M. Za\u00f1artu and M.J. Glisser, \u201cMethodology for an Assessment on Environmental Acoustics in Highways: Guideline Stage\u201d, Proceedings for I Chilean Conference on Acoustics, Santiago, November 1998. pdf<\/a><\/li><\/ol>\n\n\n\n

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          PATENTS M. Za\u00f1artu, A. Weinstein, J. Schwarzenberg, G. Carrasco, J. Rosas, F. Rubilar, “Advanced Voice Monitor”, Provisional US Patent submission, EFS ID 40199158, August 2020.…<\/p>\n","protected":false},"author":1,"featured_media":0,"parent":0,"menu_order":3,"comment_status":"closed","ping_status":"closed","template":"","meta":{"_customify_content_layout":"","_customify_sidebar":"","_customify_page_header_display":"","_customify_disable_header":"","_customify_disable_header_top":"","_customify_disable_header_main":"","_customify_disable_header_bottom":"","_customify_disable_page_title":"","_customify_disable_content_vertical_padding":"","_customify_disable_footer_top":"","_customify_disable_footer_main":"","_customify_disable_footer_bottom":"","_customify_breadcrumb_display":"","_customify_header_transparent_display":"","footnotes":""},"class_list":["post-108","page","type-page","status-publish","hentry"],"_links":{"self":[{"href":"https:\/\/vplab.usm.cl\/index.php\/wp-json\/wp\/v2\/pages\/108","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/vplab.usm.cl\/index.php\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/vplab.usm.cl\/index.php\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/vplab.usm.cl\/index.php\/wp-json\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/vplab.usm.cl\/index.php\/wp-json\/wp\/v2\/comments?post=108"}],"version-history":[{"count":27,"href":"https:\/\/vplab.usm.cl\/index.php\/wp-json\/wp\/v2\/pages\/108\/revisions"}],"predecessor-version":[{"id":941,"href":"https:\/\/vplab.usm.cl\/index.php\/wp-json\/wp\/v2\/pages\/108\/revisions\/941"}],"wp:attachment":[{"href":"https:\/\/vplab.usm.cl\/index.php\/wp-json\/wp\/v2\/media?parent=108"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}