Temperature and Humidity Measuring System Based on IOT (original) (raw)
Related papers
IoT based Temperature and Humidity Controlling using Arduino and Raspberry Pi
International Journal of Advanced Computer Science and Applications
Internet of Things (IoT) plays a pivotal part in our mundane daily life by controlling electronic devices using networks. The controlling is done by minutely observing the important parameters which generate vital pieces of information concerning the functioning of these electronic devices. Simultaneously, this information will transmit these vital statistics from the transmitting device as well as save the same on the cloud to access by the applications and supplementary procedures to use them. This scrutiny associates the outcomes of the environmental observances like the humidity and temperature measurements using sensors. The gathered information could be profitably used to produce actions like distantly dominant cooling, heating devices, or long term statistics, which will be useful to control the same. The detected data are uploaded to the cloud storage through network and associate using android application. The system employs Arduino UNO with Raspberry Pi, HTU 211D sensor device, and an ESP8266 Wi-Fi module. The experimental results show the live temperature and humidity of the surroundings and the soil moisture of any plant using Arduino UNO with Raspberry Pi. Raspberry Pi is mainly used here for checking the temperature and humidity through the HTU 211D sensor element. The sensors are used for measuring the temperatures from the surroundings, storing displayed information with different devices. Here, the ESP8266 Wi-Fi module has been used for data storing purpose.
IoT: Based Weather Monitoring System
International Journal for Research in Applied Science & Engineering Technology (IJRASET), 2022
The Weather Monitoring System using the IoT is one such application of IoT that has paved the way for organizations to create new and efficient solutions. Because of the rapidly changing climate, the weather forecast is uncertain and inaccurate these days. The IoT based Weather Monitoring system features to monitor temperature and humidity level, Barometric pressure, light intensity, air quality and rainfall. The required hardware includes Raspberry Pi, Arduino Mega, DHT11, Light intensity sensor BH1750, MQ-135, BME-280, and raindrop sensor.. All the above sensors are used to measure the given parameters. Arduino IDE and Node-RED software is used for programming and connecting hardware devices and online services. All sensors and hardware components are connected and built with Raspberry pi and Arduino. The arduino board is programmed with necessary code through Arduino IDE. The output of the arduino is stored in the local database using the influxdb. A Web Application dashboard is developed using HTML, CSS and JavaScript. The web application collects data from the Node-RED and the dashboard visualizes all the sensor data like temperature, humidity, barometric pressure, light intensity, air quality and rainfall. The paper gives a description of using IoT to help the user to identify and monitor the temperature, humidity, barometric pressure, air quality, light intensity and rainfall in the environment. This dashboard will update real time values of the above parameters to help monitor, control and maintain a particular environment.
IoT based Low-cost Weather Monitoring System
2018
Climate is the condition of the environment, to the extent that it is hot or chilly, wet or dry, quiet or stormy, clear or overcast. Man desires to stay up to date about the modern day of new weather conditions of any place like a university campus or another precise building. Checking the climate conditions physically is troublesome. Here on this paper the weather station is based totally on IoT (internet of things). The "Weather Bot" reports the climate data of the college campus by showing the temperature and humidity of the air on e-bulletin board from the reading that is sensed. Such a framework contains sensor like DHT11 that detects temperature and humidity. The sensor is associated with an e-bulletin board and ESP8266 board that is a low fee Wi-Fi module. By keeping the embedded devices in the environment for tracking enables us to know the college campus weather. The execution of the climate observing framework needs to convey the sensor gadgets in the surrounding...
Design of a Microcontroller Based Internet of Things Based Weather Station
Information about environmental conditions around us is usually obtained either from television or radio broadcasting. The world has changed, people are nowadays too occupied to find time to listen to or watch a weather channel. This paper proposes an Internet of Things(IOT) based solution which can convey real time informationabout environmental conditions to users with an internet connection either via a personal computer or a smart phone. The system proposed in this paper uploads data from environmental sensors to a cloud based IoT platform known asThingspeak. Thingspeak has two primary functions: plotting of data and storage of data. The main reason for sending information to a server is to enable the information to be accessed anywhere in the world at any time of the day. The system consists of sensors and circuitry to compile as well as display environmental conditions like temperature, relative humidity, light intensity and carbon monoxide levels. The core of the project is the Arduino Uno R3 microcontroller and the ESP8266-01 Wi-Fi module of which all devices/sensors are connected. The code is written using the Arduino IDE before it is uploaded onto the board. Once the code is uploaded, the system is connected to Wi-Fi through the ESP8266-01 board. Though the proposed system only monitors temperature, humidity, light intensity and carbon monoxide levels in the atmosphere, it can be made scalable to accommodate more sensors. This project also lays down concepts on how an organization can implement their own IOT based weather station that is suitable for their needs such as for weather monitoring or farm production.
Real Time Weather Monitoring System Using Iot
ITM Web of Conferences
In Today’s World, knowing live environmental condition is one of the biggest issues because there is an IoT of hurdles arrives when live environmental condition is measured. The proposed system will remove this problem since it monitors real-time weather conditions. In this proposed work we will monitor the live weather’s parameter of the Gorakhpur Region. The proposed system will work on the client-server architecture model using IoT. The system is organized in Two-tier Architecture. Our proposed system contains a various sensor which will monitor the temperature of the region, humidity, Rain value and pressure of the system. The sensor captured data and send it to the node MCU controller. Arduino ide is used to upload the sensed data. The serial monitor has worked as a gateway between the sensor and the cloud. The data is pushed by the sensor on a serial monitor. The serial monitors an IP address. The HTTP protocol is used to view the data on the webserver. This paper displays the...
Internet of Things (IOT) Based Mini -Weather Station using Arduino
International Journal for Research in Applied Science & Engineering Technology (IJRASET), 2022
IOT or Internet of Things is one the most developing and flourishing fields upcoming in the future. It now plays an important role in daily weather detection too. IOT is defined as the collection of devices that interacts with the user as well as the cloud or the server it is connected to. We are building a mini weather station where we can measure parameters such as temperature, humidity, atmospheric pressure, light intensity, UV index as well as dust concentration using different sets of sensors such as DHT22 Temperature Sensor, Light Sensor, UV sensor etc. Collecting this data and uploading the same to the nearest network can be helpful to a huge amount of people. Predicting a cyclone, heavy rainfall and thunderstorms can save and impact the life of many individuals. Using the Blynk mobile application we can also spread our weather data around the globe.
IOT BASED REAL TIME WEATHER MONITORING SYSTEM
IJEAST, 2020
Here we propose a savvy climate revealing framework over the web. Our proposed framework considers climate parameter detailing over the web. It permits the individuals to straightforwardly check the climate details online without the need of a climate estimating agency. System utilizes temperature, stickiness just as downpour sensor to screen climate and give live announcing of the climate statistics. The framework continually screens temperature utilizing temperature sensor, moistness utilizing dampness sensor and furthermore for downpour. The framework continually transmits this information to the microcontroller, which currently forms this information and continues transmitting it to the online web server over a Wi-Fi association. This information is live refreshed to be seen on the online server framework. Additionally, framework permits client to set alarms for specific examples, the framework gives cautions to client if the climate parameters cross those qualities. In this way the IOT based climate announcing framework gives a productive web-based climate revealing framework for users. This framework additionally proposed the dirt moistness observing framework to gauge dampness in soil and updates charts on thinkspeak.
IJERT-Internet of Things (IOT) based Weather Monitoring System
International Journal of Engineering Research and Technology (IJERT), 2018
https://www.ijert.org/internet-of-things-iot-based-weather-monitoring-system https://www.ijert.org/research/internet-of-things-iot-based-weather-monitoring-system-IJERTCONV6IS13149.pdf The system proposed in this paper is an advanced solution for monitoring the weather conditions at a particular place and make the information visible anywhere in the world. The technology behind this is Internet of Things (IoT), which is an advanced and efficient solution for connecting the things to the internet and to connect the entire world of things in a network. Here things might be whatever like electronic gadgets, sensors and automotive electronic equipment. The system deals with monitoring and controlling the environmental conditions like temperature, relative humidity and CO level with sensors and sends the information to the web page and then plot the sensor data as graphical statistics. The data updated from the implemented system can be accessible in the internet from anywhere in the world.
IoT based temperature and humidity monitoring framework
Bulletin of Electrical Engineering and Informatics
This study explored the use of Internet of Things (IoT) in monitoring the temperature and humidity of a data centre in real-time using a simple monitoring system to determine the relationship and difference between temperature and humidity with respect to the different locations of measurements. The development of temperature and humidity monitoring system was accomplished using the proposed framework and has been deployed at the data centre of Politeknik Muadzam Shah, where the readings were recorded and sent to an IoT platform of ATT M2X to be stored. The data was then retrieved and analysed showing that there was a significant difference in temperature and humidity measured at different locations. X The monitoring system was also successful in detecting extreme changes in temperature and humidity and automatically send a notification to IT personnel via e-mail, short messaging service (SMS) and mobile push notification for further action.
IOT Application of a Remote Weather Monitoring & Surveillance Station
International Journal of Smart Home, 2017
Numerous critical weather occasions have influenced humanity throughout the years. For quite a while climate checking was to a great extent a leisure activity of eager beginners. Yet in the course of the most recent century, it has advanced into an efficient and expert worldwide action that mirrors its vital significance for an extensive variety of economic, natural, civil assurance and farming exercises. Present day climate observing frameworks and systems are intended to be developed in a financially savvy way. This requires the aggregate life-cycle cost of an observing framework is minimized, and one approach to do this is to minimize the maintenance of the weather monitoring framework. Utilizing a solid-state system to quantify the weather, including the wind speed and bearing, is principal to minimize hardware adjusting and costs. The conventional weather monitoring framework comprised of individual sensors to quantify one meteorological variable, each associated with an data collection gadget or recorder. Modern day innovation has permitted the combination of a few sensors into one coordinated weather station that can be for all time situated at one site, or transported to a site where localized climate is required. The fundamental aim of this paper is to design a remote weather monitoring system which allows the monitoring of weather parameters and provides continuous surveillance at the same time. IOT based Remote Weather Monitoring Station is a fully-fledged open source weather station which is effective in measuring temperature, humidity, and light intensity with high precision and the values of measured parameters are plotted on open cloud "ThingSpeak". The system is also equipped with a camera to provide the live streaming of the area to be monitored. The controlling action is accomplished using an Embedded-PC (Raspberry Pi) or Arduino board with WIFI extension interface. In this paper the weather station is currently controlled using Raspberry Pi board and programming is done in python language.