Remote Heart Beat Monitoring System

  • Saman Shahid
  • Saima Zafar
  • Mansoor Imam
  • Muhammad Usman Chishtee
  • Haris Ehsan

Abstract

There is an increased prevalence of heart diseases in developing countries and continuous monitoring of heart beats is very much important to reduce hospital visits, health costs and complications. The Internet of Things (IoT) equipped with microcontrollers and sensors can give an easy and cost-effective remote health monitoring. We developed a Heart Beat monitoring module based on an android application. The software involved was the Android Application developed using Android Studio, which is the Integrated Development Environment (IDE). This app retrieved the data from the open IoT platform thingspeak.com. A highly sensitive Pulse Sensor was used to measure the heartbeat of the patient automatically. An Arduino Uno microcontroller interfaced with a Wi-Fi module ESP8266 used to transmit pulse reading over the internet using Wi-Fi. The heartbeat was displayed on the LCD of the patient in run-time. The heartbeat in beats per minute (BPM) was plotted against time (minutes). A mounted pulse sensor to the patient had monitored the heartbeat and transmitted it in the form of voltage signal to the microcontroller, which converted it back into a mathematical value. The Arduino transmitted the data onto the thingspeak.com portal, where it was plotted on a graph and the values were stored for future assessment. The user of the app was given a things peak API and the channel number as an access code, through which physician or nurse can accessed the patient’s data. IoT based heartbeat module as an android application can provide a convenient, cost effective and continuous remote measurements for heart patients to help physicians and nurses update. This app can reduce the burden of hospital visits or admissions for elderly patients.

Published
2020-02-18
How to Cite
SHAHID, Saman et al. Remote Heart Beat Monitoring System. NFC IEFR Journal of Engineering and Scientific Research, [S.l.], v. 7, p. 5-10, feb. 2020. ISSN 2521-0114. Available at: <http://nijesr.com/ojs/index.php/archive/article/view/247>. Date accessed: 29 oct. 2020.
Section
Articles