Abstract

This paper describes the design of an operative prototype based on Internet of Things (IoT) concepts for real time monitoring of various environmental conditions using certain commonly available and low cost sensors. The various environmental conditions such as temperature, humidity, air pollution, sun light intensity and rain are continuously monitored, processed and controlled by an Arduino Uno microcontroller board with the help of several sensors. Captured data are broadcasted through internet with an ESP8266 Wi-Fi module. The projected system delivers sensors data to an API called ThingSpeak over an HTTP protocol and allows storing of data. The proposed system works well and it shows reliability. The prototype has been used to monitor and analyse real time data using graphical information of the environment.

Highlights

  • IntroductionThe factors of physical environment, like temperature, humidity, air quality, light and rain have significantinfluence on people’s health, living habits and surroundings

  • Earth’s environment determines wellness and sustainability of all the living beings

  • The recent developments and the popularity of internet of things (IoT) are linked to the possibility of it application for real time monitoring

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Summary

Introduction

The factors of physical environment, like temperature, humidity, air quality, light and rain have significantinfluence on people’s health, living habits and surroundings. The recent developments and the popularity of IoT are linked to the possibility of it application for real time monitoring This aspect is the basis of the design of the proposed system based on IoT for monitoring of certain environmental parameters such as temperature, humidity, air pollution, sun light intensity and rain which is found to be reliable and efficient. With the penetration of mobile communication network to the remote areas, IoT based real time monitoring of environmental parameters such as temperature, humidity, air pollution, sun light intensity and rain has turned out to be an efficient and cost effective solution. This work emphasize on simplicity, low cost and data control

Proposed System
System Design and Implementation
Experimental Results
Analysis and Visualization
Conclusions

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