AC-2306327-0000001 Continuous-time model identification of the subglottal system

Fontanet, Javier G.; Yuz, Juan I.; Garnier, Hugues; Morales, Arturo; Cortes, Juan Pablo; Zanartu, Matias

Abstract

Mathematical models that accurately simulate the physiological systems of the human body serve as cornerstone instruments for advancing medical science and facilitating innovative clinical interventions. One application is the modeling of the subglottal tract and neck skin properties for its use in the ambulatory assessment of vocal function, by enabling non-invasive monitoring of glottal airflow via a neck surface accelerometer. For the technique to be effective, the development of an accurate building block model for the subglottal tract is required. Such a model is expected to utilize glottal volume velocity as the input parameter and yield neck skin acceleration as the corresponding output. In contrast to preceding efforts that employed frequency -domain methods, the present paper leverages system identification techniques to derive a parsimonious continuous -time model of the subglottal tract using time -domain data samples. Additionally, an examination of the model order is conducted through the application of various information criteria. Once a low -order model is successfully fitted, an inverse filter based on a Kalman smoother is utilized for the estimation of glottal volume velocity and related aerodynamic metrics, thereby constituting the most efficient execution of these estimates thus far. Anticipated reductions in computational time and complexity due to the lower order of the subglottal model hold particular relevance for real-time monitoring. Simultaneously, the methodology proves efficient in generating a spectrum of aerodynamic features essential for ambulatory vocal function assessment.

Más información

Título según WOS: AC-2306327-0000001 Continuous-time model identification of the subglottal system
Título de la Revista: BIOMEDICAL SIGNAL PROCESSING AND CONTROL
Volumen: 95
Editorial: ELSEVIER SCI LTD
Fecha de publicación: 2024
DOI:

10.1016/j.bspc.2024.106394

Notas: ISI