IoT Based Real-Time Remote Patient Monitoring System

Project Code :TEMBPG902

Objective

The main objective of this project is remote health monitoring and checking the threshold values for each health parameters of the patients using different sensors and IOT, microcontrollers.

Abstract

Because of a bustling timetable and unpredictable way of life, health risk isn't an age-subordinate factor in the ongoing time. Under these conditions, Internet of Things has given a lot simpler answer for remote continuous wellbeing check of patients from the clinic, just as home. Sensors secure the information of different  parameters  with  regards  to  patients  wellbeing,  and  the  Internet of Things stores that information  and shows  through  the site, which also gives  access  to remote observing. Utilization of sensors decreases the possibility of human mistake, ensures better care and treatment, reduces medical expenses, lessens the involved space of the room and improves overall performance. This extraordinary piece of arrangement is a novel way of giving the recommended prescription to patients in time. The other gainful zone of this framework is the plan of sending the warning through email alert, if any of the health parameters crosses the limit esteem. Notice plan will keep the medical expert aware of the circumstance. Another huge part of the proposed arrangement is creating the ideal surroundings according to the necessity of patient's wellbeing condition. This paper deals about the checking of health data like pulse, body temperature, body development and saline dimensions. Overall, IOT in healthcare is a potential area where possibilities are endless.

Keywords: Raspberry pi, ADC, heartbeat sensor, MEMS sensor, DSB1820, IR sensor, 16X2 LCD, power supply

 

NOTE: Without the concern of our team, please don't submit to the college. This Abstract varies based on student requirements.

Block Diagram

Specifications

Hardware Requirements:

  • Raspberry pi
  • MEMS sensor
  • Heartbeat sensor
  • Temperature sensor
  • IR sensor -2
  • 16x2 LCD
  • 5V Adapter
  • Connecting wires

Software Requirements:

  • Python  IDE
  • Fritzing
  • NOOBS software

Learning Outcomes

  • Raspberry Pi Pin diagram and Architecture.
  • How to install NOOBS Software?
  • Setting up and Installation procedures for Raspberry Pi.
  • Introduction to Python3 IDE.
  • Commands in Python.
  • Basic coding in Python.
  • What is serial communication?
  • Working on 16x2 LCD
  • 16x2 LCD Pin diagram
  • Interface of 16x2 LCD with Raspberry Pi.
  • What is an IOT and its architecture?
  • How to send data from Raspberry Pi to an IOT platform?
  • What is heartbeat sensor?
  • Working on heartbeat sensor.
  • Interfacing weight sensor with Raspberry Pi.
  • What is MEMS sensor?
  • Working on MEMS sensor.
  • Interfacing MEMS sensor with Raspberry Pi.
  • What is ADC?
  • Working on ADC.
  • Interfacing ADC with Raspberry Pi

About Project Development Life Cycle:

  • Planning and Requirement Gathering( software’s, Tools, Hardware components, etc.,)
  • Schematic preparation 
  • Code development and debugging
  • Hardware development and debugging
  • Development of the Project and  Output testing

Practical exposure to:

  • Hardware and software tools.
  • Solution providing for real time problems.
  • Working with team/ individual.
  • Work on Creative ideas.
  • Project development Skills
  • Problem analyzing skills
  • Problem solving skills
  • Creativity and imaginary skills
  • Programming skills
  • Deployment
  • Testing skills
  • Debugging skills
  • Project presentation skills
  • Thesis writing skills

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