International Journal of Engineering and Manufacturing(IJEM)

ISSN: 2305-3631 (Print), ISSN: 2306-5982 (Online)

Published By: MECS Press

IJEM Vol.11, No.5, Oct. 2021

COVID-19 Patient Health Monitoring System

Full Text (PDF, 751KB), PP.48-55

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Anurag Tatkare, Hemangi Patil, Tejal Salunke, Shreya Warang, Dipak Marathe

Index Terms

Heart beat rate (BPM), Blood Oxygen (SpO2), Pulse Oximeter, Temperature sensor, Internet of Things (IoT), Blynk.


The system proposed can be used to regular checkup of the COVID patients while maintaining the social distancing. Also, the data sensed by the sensors is directly sent to doctor, reducing the cost of paying regular visits to doctor. The Iot platform used in the system helps to transfer the real time patient’s data remotely to host device. Daily health record can be maintained and can be viewed easily on graphs charts ease for doctors to see any abrupt changes in oxygen level or rise in temperature. To track the patient health micro-controller is in turn interfaced to an LCD display and wi-fi connection to send the data to the web-server (wireless sensing node). In case of any abrupt changes in patient heart-rate or body temperature alert is sent about the patient using IoT. This system also shows patients temperature and heartbeat tracked live data with timestamps over the Internetwork.

Cite This Paper

Anurag Tatkare, Hemangi Patil, Tejal Salunke, Shreya Warang, Dipak Marathe, " COVID-19 Patient Health Monitoring System ", International Journal of Engineering and Manufacturing (IJEM), Vol.11, No.5, pp. 48-55, 2021. DOI: 10.5815/ijem.2021.05.05


[1]M. A. Mahgoub, O. O. Khalifa, K. Sidek, S. Khan, “Health monitoring system using Pulse Oximeter with remote alert”, March 2015, International Conference on Computing, Control, Networking, Electronics and Embedded Systems Engineering.

[2]M. Shiekh and I. Ameen, “Design of mobile healthcare monitoring system using IoT Technology and Computing”, Sept. 2020, 3rd Int. Conf. on Sustainable Engineering Techniques

[3]Y. Khan, D. han, J. Ting, A. C. Aris “Organic Multi-Channel Optoelectronic Sensors for Wearable Health Monitoring”, Published in IEEE Access (Volume 7), pp. 128114-128124, September 2019.

[4]A. Angelucci, D. Kuller, A. Aliverti, “A home telemedicine system for continuous respiratory monitoring”, IEEE J Biomed Health inform, Jul 2020.

[5]P. J. Chacon, T. H. da Costa, T. Ghomian, H. Chun Wu, “A Wearable Pulse Oximeter with Wireless Communication and Motion Artifact Tailoring for Continuous Use”, IEEE Transactions on Biomedical Engineering (Volume 66, issue 6), pp. 1505-1513, October 2018.

[6]T. Hussain, A. Haider, W. Akram, M. Rehman, “Synchronized intermittent mandatory ventilation mode control using pulse oximeter”, March 2018, International Conference on Computing Mathematics and Engineering Technologies (iCoMET).

[7]Deepesh K Rathore; Ankita Upmanyu; Deepanshu Lulla  “Wireless patient health monitoring system” 2013 International Conference on Signal Processing and Communication (ICSC). 

[8]Shola Usha Rani, Antony Ignatious , Bhava Vyasa Hari, Balavishnu V J “Iot Patient Health Monitoring System” Indian Journal of Public Health Research and Development · October 2017.

[9]C. Premalatha, R.P. Keerthana, R. Abarna “HUMAN HEALTH MONITORING SYSTEM” International Research Journal of Engineering and Technology. (Volume: 06 Issue: 01) Jan 2019.

[10]Pedro J. Chacon, Limeng Pu, Tallis Costa“A Wearable Pulse Oximeter With Wireless Communication and Motion Artifact Tailoring For Continuous Use” IEEE TRANSACTIONS ON BIOMEDICAL ENGINEERING (VOL. 66, NO. 6), JUNE 2019.

[11] coronavirus-2019/question-and-answers-hub/q-a- detail/coronavirus-disease-covid- 19#:~:text=symptoms

[12] coronavirus-2019/question-and-answers-hub/q-a- detail/coronavirus-disease-covid-19#:~:text=protect

[13]MAX30100 Pulse Oximeter and Heart-Rate Sensor IC for Wearable Health Data Sheet.

[14]NodeMCU ESP-32 Microcontroller Data Sheet