Recent Papers

The healthcare sector continues to face a critical need for reliable, affordable, and efficient solutions to manage respiratory distress and cardiac emergencies, especially in resource-limited settings. The proposed system, the introduces an innovative solution by combining a mechanical ventilator and an automated CPR device into one compact, IoT-enabled unit. Traditional setups require separate devices for ventilation and chest compressions, often necessitating manual intervention and leading to delays. The integrated system eliminates this issue by allowing seamless transitions between ventilation support and CPR compressions based on real-time patient data, ensuring rapid and effective response. With IoT-based real-time monitoring, healthcare providers can remotely track vital signs such as blood oxygen levels, respiratory rate, and heart rate, and adjust settings for optimal care, making the system suitable for both emergency situations and home care settings. Unlike the base paper, which developed a standalone ventilator with basic monitoring, the proposed project goes further by incorporating an advanced CPR module, enhanced sensor-based controls, and remote monitoring capabilities, creating a more versatile and holistic approach to patient care. By combining two essential life-support functions into a single, cost-effective device, this project aims to improve treatment efficiency, reduce manual workload, and ultimately save more lives, representing a significant leap forward in medical technology.

Copyright © 2025 H S Vyshnavi. This is an open access article distributed under the Creative Commons Attribution License.