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Published on Nov 30, 2023

Abstract

The aim of this project is design a system to monitor the vital signs of a patient by using the compact bio-medical wireless sensor motes.

PURPOSE:

By using project we can continuously monitor a priority based patient health conditions during unfortunate seriousness of the patient and give the service by wireless transmissions between medical devices and continuously monitor the core temperature and carbon dioxide concentration

Description:

This project PATIENT VITAL SIGNS MONITORING USING WIRELESS BODY AREA NETWORKS is used as the patient severity upon the vital conditions of the prioritizing information by using the sensors that are present upon the body of the patient that is a small wearable wireless devices limited in memory, energy, computation and communication capabilities are deployed on a patient.

There is a sensors that are present on the body of the patient with help of these sensors the vital conditions like the carbon dioxide concentration and core temperature can be calculated. The seriousness of the patient can be known by using the colours like "red, yellow, green".

By means of these colours the service can be preplanned and the indications are 'immediate, delayed, and minimal services' respectively can be provided as per the priorities calculations these indications are used for the QOS (quality of the service) can be given to the patient

TECHNOLOGY:

Zigbee is new wireless technology guided by IEEE 802.15.4 Personal Area Network standard. It is primarily designed for the wide range controlling applications and to replace the existing non-standard technologies.

It currently operates in 868 MHz band at a data rate of 20Kbps in Europe, 914MHz band at 40kbps in USA, and the 2.4GHz ISM bands Worldwide at a maximum data-rate of 250kbps.

It is used to verify whether user's truncation is possible or not. One of the main advantages of this ZIGBEE communication is that it provides a noise free communication, the amount of noise added in this type of communication is very less compared to the other wireless communications

RESULT:

This design is used for the Application of receiving the vital values of the patient and sending it to the desired location by continuous monitoring.