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Juan Pablo Cortés Sotomayor

Associate Researcher

Advanced Center of Electrical and Electronic Engineering

Valparaíso, Chile

Líneas de Investigación


Developing machine learning and digital signal processing algorithms applied to clinical voice/speech applications, inverse methods of speech production, and neural network models of speech motor control.

Educación

  •  Electronic Engineering, UNIVERSIDAD TECNICA FEDERICO SANTA MARIA. Chile, 2020
  •  Electrical Engineering, UNIVERSITY OF CALIFORNIA-LOS ANGELES. Estados Unidos, 2013
  •  Electrical Engineering, UNIVERSITY OF CALIFORNIA-LOS ANGELES. Estados Unidos, 2010

Experiencia Académica

  •   Part-time Professor Part Time

    UNIVERSIDAD TECNICA FEDERICO SANTA MARIA

    Valparaíso, Chile

    2023 - 2024

Experiencia Profesional

  •   Postdoctoral Fellow Full Time

    Center for Laryngeal Surgery and Voice Rehabilitation, Massachussetts General Hospital

    Boston, Estados Unidos

    2020 - 2021

  •   Scientist Researcher Full Time

    Lanek

    Valparaíso, Chile

    2022 - 2023

Premios y Distinciones

  •   Qualcomm Q Award

    Qualcomm

    Estados Unidos, 2010

    Scholarship award from Qualcomm to undergraduate students in the field of Electrical Engineering,

  •   Best Poster Award

    The Voice Foundation

    Estados Unidos, 2019

    Best poster award during the 49th Voice Foundation Conference in Philadelphia, USA

  •   Keynote Speaker

    Sociedad Chilena de Fonoaudiología

    Chile, 2024

    Invitado Charla Magistral II Congreso de la Sociedad Chilena de Fonoaudiología


 

Article (11)

AC-2306327-0000001 Continuous-time model identification of the subglottal system
Empirical Distribution of Glottal Edges (EDGE): A Statistical Assessment of Vocal Fold Kinematics Using High-Speed Videoendoscopy
Modeling voice production and self-perception in noise: Understanding the Lombard effect in non-phonotraumatic vocal hyperfunctiona)
Revealing Conflicting Ideologies
Glottal Airflow Estimation Using Neck Surface Acceleration and Low-Order Kalman Smoothing
Ambulatory Monitoring of Subglottal Pressure Estimated from Neck-Surface Vibration in Individuals with and without Voice Disorders
Kalman Filter Implementation of Subglottal Impedance-Based Inverse Filtering to Estimate Glottal Airflow during Phonation
Differences in Daily Voice Use Measures Between Female Patients With Nonphonotraumatic Vocal Hyperfunction and Matched Controls
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
Ambulatory assessment of phonotraumatic vocal hyperfunction using glottal airflow measures estimated from neck-surface acceleration
Using ambulatory voice monitoring to investigate common voice disorders: research update

Proyecto (4)

Ambulatory biofeedback using physiological-relevant features and motor learning principles
Clinical Research Center for Improved Prevention, Diagnosis and Treatment of Vocal Hyperfunction
A subject-specific model of voice production and its application in the short and long term assessment of vocal hyperfunction
Advanced Center for Electrical and Electronic Engineering (AC3E)
13
Juan Cortés

Associate Researcher

Electronic Engineering

Advanced Center of Electrical and Electronic Engineering

Valparaíso, Chile

5
Matias Zañartu

Full Professor

Department of Electronic Engineering

Universidad Técnica Federico Santa María

Valparaiso, Chile

4
Víctor Espinoza

Associate Professor

Departamento de Sonido

Universidad de Chile

Santiago, Chile

2
Alejandro Weinstein

Associate professor

Electronics

Universidad Técnica Federico Santa María

Valparaiso, Chile