Design and Implementation of an Interoperable IoT Based Health Monitoring System for Diabetes

Diabetes is a widespread chronic condition that requires continuous health monitoring for effective management. This project presents the design and implementation of an Interoperable IoT-Based Health Monitoring System, specifically tailored for individuals with diabetes. The system incorporates various components, including an Arduino Uno microcontroller, a Max30100 sensor for measuring heartbeat and oxygen levels, NodeMCU devices for data transmission, a Dallas Temperature Sensor for temperature monitoring, an LCD display for real-time data visualization, NodeMCU for cloud data upload, GSM for SMS alerts, and a buzzer for immediate notifications.

The Interoperable IoT-Based Health Monitoring System functions by continuously monitoring vital health parameters for individuals with diabetes. The Max30100 sensor captures data related to heart rate and oxygen levels and transmits this information to the Arduino Uno through nodeMCU. The Arduino processes the data and, through the NodeMCU, sends it to the cloud or platforms such as ThingSpeak for remote monitoring and analysis. In addition, the system employs the Dallas Temperature Sensor for monitoring body temperature. The GSM module enables the system to send SMS alerts to healthcare providers or family members in case of abnormal readings. A buzzer provides immediate audio notifications to the user. This comprehensive system offers health monitoring, ensuring individuals with diabetes can manage their condition effectively and receive timely medical attention when needed. It has the potential to improve the quality of life for diabetes patients and contribute to better healthcare management. Further research and testing are essential to validate its effectiveness and refine its features for practical implementation.

Keywords: Arduino UNO, Diabetes Monitoring, MAX30100, NODEMCU, Dallas Temperature Sensor