A Deep Learning Approach to Estimate the Respiratory Rate from Photoplethysmogram

Lucas C. Lampier; Yves L. Coelho; Eliete M. O. Caldeira; Teodiano  Bastos-Filho

doi:10.17163/ings.n27.2022.04

Ingenius: Revista de Ciencia y Tecnología (Dec 2021)

A Deep Learning Approach to Estimate the Respiratory Rate from Photoplethysmogram

Lucas C. Lampier,
Yves L. Coelho,
Eliete M. O. Caldeira ,
Teodiano Bastos-Filho

Affiliations

Lucas C. Lampier: Universidade Federal do Espírito Santo
Yves L. Coelho: Universidade Federal do Espírito Santo
Eliete M. O. Caldeira: Universidade Federal do Espírito Santo
Teodiano Bastos-Filho: Universidade Federal do Espírito Santo

DOI: https://doi.org/10.17163/ings.n27.2022.04
Journal volume & issue: no. 27

Abstract

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This article describes the methodology used to train and test a Deep Neural Network (DNN) with Photoplethysmography (PPG) data performing a regression task to estimate the Respiratory Rate (RR). The DNN architecture is based on a model used to infer the heart rate (HR) from noisy PPG signals, which is optimized to the RR problem using genetic optimization. Two open-access datasets were used in the tests, the BIDMC and the CapnoBase. With the CapnoBase dataset, the DNN achieved a median error of 1.16 breaths/min, which is comparable with analytical methods in the literature, in which the best error found is 1.1 breaths/min (excluding the 8 % noisiest data). The BIDMC dataset seems to be more challenging, as the minimum median error of the literature’s methods is 2.3 breaths/min (excluding 6 % of the noisiest data), and the DNN based approach achieved a median error of 1.52 breaths/min with the whole dataset.

Published in Ingenius: Revista de Ciencia y Tecnología

ISSN: 1390-650X (Print); 1390-860X (Online)
Publisher: Universidad Politécnica Salesiana
Country of publisher: Ecuador
LCC subjects: Technology; Science: Science (General)
Website: http://revistas.ups.edu.ec/index.php/ingenius

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