Smart Portable Ventilator with IOT Connectivity and DC Charging Support
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Abstract
The increasing demand for affordable, portable respiratory support equipment, particularly in emergency scenarios and resource-constrained environments, has highlighted the need for smart portable ventilators with IoT connection and DC charging support solutions. This article describes the design and development of a smart portable ventilator that is connected to the Internet of Things and supports vehicle DC charging in order to ensure continuous functioning in emergency situations. The device includes an automated Ambu-bag compression mechanism controlled by a computer and enhanced by sensors to monitor vital factors like as oxygen saturation (SpO₂), airflow, and pressure. Medical practitioners may remotely monitor patients and send out mobile notifications in the event of anomalies thanks to an Internet of Things module that sends real-time data to cloud platforms. The device may also find the closest hospitals and doctors in real time for emergency medical aid by integrating IoT connectivity with a search engine. By combining a conventional AC supply with vehicle-based DC charging, the ventilator's dual-source technology increases portability and reliability while ensuring uninterrupted operation during patient transportation or power outages. Thanks to an easy-to-use interface with safety alerts and configurable parameters, clinicians can respond swiftly and with exact control. The proposed technology demonstrates an effective, economical, and scalable approach for emergency respiratory support, with potential applications in disaster relief operations, mobile medical units, and rural healthcare facilities.
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