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

5 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

Bibliographical note

Publisher Copyright:
© 2022, Universidad Politecnica Salesiana. All rights reserved.

CACES Knowledge Areas

417A Electronics, Automation and Sound

Access to Document

10.17163/ings.n27.2022.05

Cite this

@article{80d27b5cb97c4611858682c8f900f1b1,

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.",

keywords = "Automation, Covid-19, eHealth, image processing, SUS, telemedicine",

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\}",

year = "2022",

month = jan,

day = "1",

doi = "10.17163/ings.n27.2022.05",

language = "Espa{\~n}ol",

volume = "2022",

pages = "49--58",

journal = "Ingenius",

issn = "1390-650X",

publisher = "Universidad Politecnica Salesiana",

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TY - JOUR

T1 - Prototipo de un dispositivo para la medición automática de señales fisiológicas para asistir al diagnóstico y seguimiento de pacientes con COVID-19

AU - Llanos, Karla

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

PY - 2022/1/1

Y1 - 2022/1/1

N2 - 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.

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.

KW - Automation

KW - Covid-19

KW - eHealth

KW - image processing

KW - SUS

KW - telemedicine

UR - https://www.scopus.com/pages/publications/85131531129

U2 - 10.17163/ings.n27.2022.05

DO - 10.17163/ings.n27.2022.05

M3 - Artículo

AN - SCOPUS:85131531129

SN - 1390-650X

VL - 2022

SP - 49

EP - 58

JO - Ingenius

JF - Ingenius

IS - 27

ER -

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

Abstract

Bibliographical note

CACES Knowledge Areas

Access to Document

Other files and links

Integrated Portable Medical Assistant for Measuring Heart Rate, Blood Pressure, Oxygen Saturation Level, and Body Temperature as Telemedicine Technology to Assist in COVID-19 Diagnosis

Cite this

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

Abstract

Bibliographical note

CACES Knowledge Areas

Access to Document

Other files and links

Projects

Integrated Portable Medical Assistant for Measuring Heart Rate, Blood Pressure, Oxygen Saturation Level, and Body Temperature as Telemedicine Technology to Assist in COVID-19 Diagnosis

Cite this