Abstract

Breathing issues affect people of all ages and worsen during emergencies like pandemics, making them a serious worldwide health concern. In order to provide effective, timely, and economical respiratory assistance, mechanical ventilators are essential. Even though industry leaders are developing smart ventilator technologies, there is still a pressing need for accessible, reasonably priced, and easy-to-use solutions, especially in environments with limited resources. In this study, a simulated model for an affordable smart innovative ventilator with internet of things (IoT) capabilities is presented. The gadget, which was made with affordability and ease of use in mind, can save important data, assess patient health characteristics, and allow real-time monitoring. It’s IoT connectivity enables smooth communication with mobile platforms and web apps, giving family members and caregivers immediate access to patient data. Improved results, quicker medical answers, and remote patient monitoring are all made possible by this connectivity. Advanced features including real-time anomaly notifications, automated airflow modifications based on patient demands, and secure data encryption to protect patient privacy are all included in the suggested ventilator. Furthermore, its ability to work with telemedicine systems increases its usefulness for remote consultations and lessens the strain on medical institutions. By prioritizing low-cost, intelligent design, this research aims to democratize smart ventilator technology for underserved regions. The proposed model has the potential to significantly improve healthcare capacity, especially during respiratory emergencies in pandemics, natural disasters, or other crises. This work underscores the transformative role of IoT and biomedical engineering in addressing global health challenges and enhancing respiratory care.