Patient Health Monitoring System Using Iot Technology

摘要

Surveillance and recording of various medical parameters of patients outside the hospital are popular,and recently it has become a common phenomenon.The reason behind this project is to design a system for remote monitoring of the patient's body via the Internet;belonging to the Internet of Things(IOT).Therefore,the function of the system is to use the corresponding sensors to measure some physiological parameters of the patient's body,such as body temperature and heart rate,blood pressure,humidity,and send it to the IoT cloud platform through the Wi-Fi module,and use the Atmega328P microcontroller as the processing unit system;In addition,the patient data will be stored in the IoT cloud.Therefore,the doctor can access the patient's information anytime,anywhere without physical presence,and the doctor can continuously monitor the patient's condition from his/her location.In addition,this study attempts to investigate wireless communication technologies such as Bluetooth,ZigBee,and Wi-Fi module;to determine which one is more appropriate and reliable for patient health monitoring tasks.The results show that this project can effectively use Wi-Fi technology to monitor the health of patients.And can reduce the power consumption of Wi-Fi module(ESP8266)as much as possible.Therefore,the designed system has low complexity,low power consumption,and high portability for patient health monitoring.

目录

第一个书签之前

ABSTRACT

CONTENTS

1.1 Background

1 INTRODUCTION

1.2 Statement Problem

1.3 Purpose of this research

1.4 Objectives of this research

1.5 Requirements of this Project

Hardware Specifications

Software Specifications

2 WIRELESS COMMUNICATION TECHNOLOGIES IN IOT

2.1 Embedded systems

2.1.1 Embedded Systems application domains

2.1.2 Characteristics of Embedded System

2.1.3 Advantage of Embedded System

2.1.4 Disadvantage of Embedded System

2.2 Internet of Things (IOT)

2.2.1 Usual Characteristics of Internet of things (IoT)

2.2.2 IoT architecture and working

Stage 1

Stage 2

Stage 3

Stage 4

2.2.3 Applications of IoT(Internet of IoT)

2.2.4 The advantages of IoT (Internet of Things)

2.2.5 The disadvantages of IoT (Internet of Things)

2.3 IoT Fundamentals

2.4 IoT in HealthCare

2.5.1 Wi-Fi Technology

2.5.2 Bluetooth

2.5.3 ZigBee technology

2.5.4 NFC technology

2.6 RFID Technology

2.7 Wireless Sensor Network Technology

2.8 Cloud Computing Technology

3.1 Introduction

3.2 Arduino Micro controller

3.3 ESP8266 Wi-Fi Module

3.3.1 The key features list

3.4 Sensors

3.4.1 Temperature Sensor

3.4 .2 Heartbeat Sensor

3.4.2 The Key Features list

3.4.3 Humidity Sensor

3.4.4 Body Movement Sensor

4.1 Introduction

4.2 Sensors to Micro-controller interfacing

4.3 ESP8266 WIFI-module Interfacing with Micro-controller

4.3.1 ESP8266 Wi-Fi-Module Configuration

4.3.2 Testing the ESP8266 via the Micro-controller

4.3.3 Wiring scheme

4.3.4 ESP8266 Part of the code that contains AT Commands

4.4 The Sequence of the proposed system

4.5 System programming

Structure of the code

4.6 ESP8266 Power Consumption Reducing

Hardware setup

The code part that focuses on the deep-sleep functions

4.7 Transmission Model

4.8 Cloud Model

5 EXPERIMENTAL RESULTS AND CONCLUSION

5.1 Introduction

5.2 Wi-Fi Testing

5.4 System testing method

5.5 Conclusion

5.6 Future Work

ACKNOWLEDGEMENT

REFERENCES

Coding list