IoT-Based Smart Health-Monitoring Ventilator System For Enhanced Patient Safety

Abstract

This work tackles the constraints of current low-resource ventilator systems. These systems sometimes lack built-in monitoring for the environment and vital signs, which reduces patient safety and increases the need for using multiple devices. The proposed solution is a smart, affordable health-monitoring ventilator system. It combines temperature, humidity, light, heart rate, blood oxygen levels, and dangerous gas detection into a single automated platform. The system’s goal is to provide constant, real-time monitoring. It also seeks to enhance comfort by automatically adjusting fans and lights, according to input from various sensors. The Arduino microcontroller handles both data gathering and control, operating effectively on its own, without needing any outside components. To improve use in both home and clinical settings, the readings are shown immediately on an LCD panel. The aim is to offer a cost-effective, space-saving, and dependable multi-parameter monitoring system, well suited for environments with limited resources. This system’s uniqueness comes from merging environmental sensing, biomedical monitoring, and automatic ventilation control into a single, completely integrated, and affordable system.