Prototipo de un dispositivo para la medición automática de señales fisiológicas para asistir al diagnóstico y seguimiento de pacientes con COVID-19

Karla Llanos; Christian Landi; Fernando Yupa; Paola Vasquez; Ismael Criollo; John Calle-Siguencia; Fernando Urgilés-Ortiz; Ana Cecilia Villa-Parra

doi:10.17163/ings.n27.2022.05

Prototipo de un dispositivo para la medición automática de señales fisiológicas para asistir al diagnóstico y seguimiento de pacientes con COVID-19

Translated title of the contribution: Prototype of a Device for the Automatic Measurement of Physiological Signals to Assist the Diagnosis and Monitoring of patients with COVID-19

Karla Llanos, Christian Landi, Fernando Yupa, Paola Vasquez, Ismael Criollo, John Calle-Siguencia, Fernando Urgilés-Ortiz, Ana Cecilia Villa-Parra

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

This article describes the design, construction and preliminary results of a device to automate the measurement of physiological signals to assist in the diagnosis and monitoring of COVID-19. The device uses a system to controlling linear actuators to turn on/off certified biomedical instruments, in addition to algo-rithms for image recognition of displays with measure-ments of temperature, oxygen saturation, pressure and heart rate. The system also includes a mobile ap-plication, which receives data in real time and creates a database for medical evaluation. Results obtained with the device have demonstrated to provide a high percentage of efficiency in the data acquisition. After several trials with users, SUS and PSSUQ tests were applied to allow verifying the users’ feedback regard-ing the satisfaction and usability of the prototype, with high score, showing the good acceptance of the device from the users.

Translated title of the contribution	Prototype of a Device for the Automatic Measurement of Physiological Signals to Assist the Diagnosis and Monitoring of patients with COVID-19
Original language	Spanish
Pages (from-to)	49-58
Number of pages	10
Journal	Ingenius
Volume	2022
Issue number	27
DOIs	https://doi.org/10.17163/ings.n27.2022.05
State	Published - 1 Jan 2022

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© 2022, Universidad Politecnica Salesiana. All rights reserved.

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title = "Prototipo de un dispositivo para la medici{\'o}n autom{\'a}tica de se{\~n}ales fisiol{\'o}gicas para asistir al diagn{\'o}stico y seguimiento de pacientes con COVID-19",

abstract = "This article describes the design, construction and preliminary results of a device to automate the measurement of physiological signals to assist in the diagnosis and monitoring of COVID-19. The device uses a system to controlling linear actuators to turn on/off certified biomedical instruments, in addition to algo-rithms for image recognition of displays with measure-ments of temperature, oxygen saturation, pressure and heart rate. The system also includes a mobile ap-plication, which receives data in real time and creates a database for medical evaluation. Results obtained with the device have demonstrated to provide a high percentage of efficiency in the data acquisition. After several trials with users, SUS and PSSUQ tests were applied to allow verifying the users{\textquoteright} feedback regard-ing the satisfaction and usability of the prototype, with high score, showing the good acceptance of the device from the users.",

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author = "Karla Llanos and Christian Landi and Fernando Yupa and Paola Vasquez and Ismael Criollo and John Calle-Siguencia and Fernando Urgil{\'e}s-Ortiz and Villa-Parra, {Ana Cecilia}",

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AU - Landi, Christian

AU - Yupa, Fernando

AU - Vasquez, Paola

AU - Criollo, Ismael

AU - Calle-Siguencia, John

AU - Urgilés-Ortiz, Fernando

AU - Villa-Parra, Ana Cecilia

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AB - This article describes the design, construction and preliminary results of a device to automate the measurement of physiological signals to assist in the diagnosis and monitoring of COVID-19. The device uses a system to controlling linear actuators to turn on/off certified biomedical instruments, in addition to algo-rithms for image recognition of displays with measure-ments of temperature, oxygen saturation, pressure and heart rate. The system also includes a mobile ap-plication, which receives data in real time and creates a database for medical evaluation. Results obtained with the device have demonstrated to provide a high percentage of efficiency in the data acquisition. After several trials with users, SUS and PSSUQ tests were applied to allow verifying the users’ feedback regard-ing the satisfaction and usability of the prototype, with high score, showing the good acceptance of the device from the users.

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KW - eHealth

KW - image processing

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ER -

Prototipo de un dispositivo para la medición automática de señales fisiológicas para asistir al diagnóstico y seguimiento de pacientes con COVID-19

Abstract

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