Análisis, diseño y construcción de un prototipo bioelectrónico IOT que permita el monitoreo de los niveles de oxígeno, temperatura y ritmo cardíaco.

Abstract

The objective of this curricular integration work was to analyze, design and build an IoT bioelectronic prototype that allows the monitoring of oxygen levels, temperature and heart rate, it was decided to design and implement a prototype in the Internet of things, under environments of mobile devices with Android and Web pages for monitoring data of temperature, heart rate and oxygen level through the MLX90614 and MAX-30102 sensors. It allows taking data of the vital signs of temperature, heart rate and oxygen level of the patient through the sensors and the development card, after which it proceeds to send the information to a web server, storing it in a database, therefore, in mobile and web application support patient registration in the system and access to the results of vital signs information. In order to determine the correct functioning of the bioelectronic prototype, the joint comparison of the taking of vital signs was carried out with the help of existing medical equipment in the market. The tests were carried out on 77 patients, the sample being used for the calculations and the comparison. of results between the medical equipment and the bioelectronic prototype. Once the measurements have been made and with the data obtained, it indicates that the bioelectronic prototype is reliable. The results were presented in the mobile and web application. It is concluded that through the mobile and web application it is possible to show the patient's diagnosis together with the monitoring values, where the treating physician will be the one who dictates and validates the patient's vital signs. It is recommended that for the design and implementation of a prototype IoT system for monitoring vital signs, the use of different sensors to accurately measure vital signs.