BIOMEDICAL AND LIFE SUPPORT SYSTEM FOR DEFENCE
AFREEN KHANAM A
School of Information Science and Engineering
Presidency University
Bangalore,Karnataka India
afkhanam0005@gmail.com
DEVI.S
Asst.Professor Computer Science and Engineering ,Guide
Presidency University
Bengaluru ,Karnataka,India
devi.s@presidencyuniversity.in
Abstract— Networking, public and private companies, and international governmental organizations have all undergone radical change as a result of the Internet and the development of smart sensing gadgets. The goal of this study is to examine wearable health monitoring devices that people can use to track physiological data such as body temperature, heart rate, blood pressure, pulse, and other vital signs. The system described in this study uses smart biosensors to wirelessly interface human physiological characteristics with a computer system. It is a graphical user interface (GUI)-based system.
By boosting efficiency, lowering costs, and preventing medical errors, the integration of these technologies has the potential to significantly improve healthcare quality. Smart biosensors built into wearable health monitoring devices provide a handy and unobtrusive way to continuously check vital indicators. This makes it possible for people to take charge of their health, identify early warning signs, and respond appropriately to any healthproblems.
Individuals may see and understand their physiological data using the GUI-based system's user-friendly interface. It enables real-time vital sign monitoring, recording, and analysis, allowing users to follow their health improvement and remotely share this information with medical providers. The system's wireless protocols enable seamless connection between wearable technology and the computer system, By boosting efficiency, lowering costs, and preventing medical errors, the integration of these technologies has the potential to significantly improve healthcare quality. Smart biosensors built into wearable health monitoring devices provide a handy and unobtrusive way to continuously check vital indicators. This makes it possible for people to take charge of their health, identify early warning signs, and respond appropriately to any health problems, eliminating the need for cumbersome wired connections.
Keywords— Bio-sensors, Physiological parameters, Wireless protocols, GUI
