IoT Based Smart Healthcare Monitoring System for the Paralysis and Mute Person

Abstract

Flex sensors are used by the IOT-based smart healthcare monitoring system for paralyzed and silent people to identify their requirements. The system includes temperature and pulse rate monitoring, and it transmits and displays real-time data updates via Internet of Things to an LCD. The brain of the system is an Arduino or CPU, which gathers and processes input from several sensors and coordinates all of the system's functions. It displays vital sign data, interpreted requirements, and any alarms or messages that the patient or caregivers may observe in real time. Because of its Internet of Things (IOT) characteristics, this system can send gathered data to distant servers or devices over the internet. This makes it possible for caregivers or healthcare professionals to view the patient's data remotely for tracking and prompt action. In the event that any sensor readings exceed predetermined thresholds indicating critical circumstances, an alarm system is included to rapidly contact caretakers or medical personnel. The buzzer functions as an auditory alert that requires quick attention. Caregivers are alerted by a buzzer when high sensor readings are detected. The method uses audio playback to convey requirements that have been discovered in order to improve communication with patients who are silent. By delivering timely information and promoting efficient communication, this integrated approach improves treatment for people with paralysis and those who are silent. It also makes the healthcare environment more responsive and patient-centered.