Digital Thermoximeter Using IOT

International Research Journal of Engineering and Technology (IRJET)

e-ISSN: 2395-0056

Volume: 09 Issue: 05 | May 2022

p-ISSN: 2395-0072

www.irjet.net

Digital Thermoximeter Using IOT Rajeshwari P. Patil1, Payal V. Gosavi2, Suryajeet S. Gadkar3, Siddharth More4, Prof. V. C. Bavkar5 year Students, E&Tc Department, TSSM’s BSCOER, Pune, Maharashtra, India Department of Electronics and Telecommunications Engineering, TSSM’s BSCOER, Pune, Maharashtra, India ---------------------------------------------------------------------***--------------------------------------------------------------------5Professor,

1,2,3,4Final

Abstract: Our project Digital Thermo-oximeter is IOT

MCP3208(analog to digital converter) it can be made. In this project all the health-related data is going to transfer via WiFi network on the platform or app with the help of cloud computing.

based project which will helps out to collect all the physical data of the patients like the temperature, pulse rate and SpO2 level. All the data is collected throughout the sensors. This may be helpful for the doctors to attend the patients those who are in emergency. And it’s easy to improve the patient’s health. All this process is done and monitor by using Raspberry Pi 3 B+ module. It can be able to get live through camera and showcase the data on the online platform due to the IOT. Google cloud will play the major role in this. By this process collected data will be helpful for the better improvement on health of the emergency needed patients. Key Words: Keywords: Online platform, Google cloud, Raspberry Pi 3 B+, Live present.

1. INTRODUCTION As we know that during the period of Covid-19 the condition was so difficult to handle all the patients which are in Intensive Care Unit (ICU). There is major requirement of doctors to handle the patients but various problems are occurred and it was getting too much challenging for them. Because of that there is lack of things in the hospitals like space, maintenance etc. All the time doctors, nurses or the ward helpers need to monitor the patients particularly. Also, some patients are stayed in home and doctors need to attend them physically. So, avoid all this time-consuming process we are going to represent this system. It may also be reduced the cost of consumption.

Fig-1: Block Diagram

3. MODELING AND ANALYSIS The hardware and software requirements for the implementation of this project is as shown below: Hardware Components:  Raspberry Pi 3B+ module

1.1 Aim of our project

 Temperature sensor (LM35)  A to D converter (Mcp3208)

The aim of our project is to implement a system which will show the status of a human body parameters like temperature, SpO2 level and pulses. The Raspberry Pi is able to show the accurate values of the mentioned parameters. Hence it can be useful to use in the Hospitals, Companies, in transport systems etc.

 Heart pulse rate monitor sensor (MAX30100) Software Used:  Putty Software  Things on board (IOT platform)

2. METHODOLOGY

 Google Cloud (for data storage purpose)

2.1 Project Model:

3.1 Raspbian

It includes Raspberry Pi 3B+ for the digital thermooximeter making purpose. By the combination of hardware and software simultaneously and also interfacing the sensors like LM35(temp. sensor), MAX30100(pulse sensor) and the

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Raspbian OS is basically based on Linux and can be easily optimized to work effectively with Raspberry Pi computer also it is free to download and use.

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