IOT Based Real Time Measurement of Temperature for Inverter Using Low Cost Node Microcontroller (original) (raw)
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Temperature and Humidity Measuring System Based on IOT
Development in Internet of Things (IoT) goes rapid increasingly the aim of this system is to design weather monitoring system based on the concept of using the Raspberry Pi as an interfacing device as well as a web server. Weather affects many fields such as agriculture, industrial area so monitoring station needs and that can take measurements of the temperature, rain, light dependent resistor, humidity, barometric pressure and save them on a server so that this data can be accessed from anywhere via the Internet. This system is useful for every home, school or workplace has its own microclimate, so taking measurements, and local data is generated, stored and then can compare with the previous data.
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.
Prototype Monitoring Temperature and Humidity Sensor Room Server-Based Internet of Things (IOT)
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Computer servers are very important to provide resources to be used for computer users in a network. Temperature and humidity in the server room are things that must be addressed to remain in normal, so as to minimize damage to server computer hardware, a system consisting of secure devices and hard devices using a microcontroller consisting of NodeMCU, DHT11 temperature sensor, LCD I2C, temperature & humidity data will be displayed in real -time on the website and also get notifications via e-mail and telegram if the temperature and humidity exceed the normal limit .
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International Journal of Computer Sciences and Engineering, 2018
This paper mainly focuses on the aspects of simplifying people"s lives by implementing the ways of IOT in daily used home appliances. The major focus of this paper lies in automation of air conditioning using a thermostat and watering of plants without human intervention using a moisture sensor. A DHT11 temperature sensor integrated with internet of things using a Raspberry pi facilitate the above-mentioned implementation of internet of things. The thermostat is used as source of information for the conditioner to adjust the temperature in the room and the moisture sensor acts as a switch to water the plants once the soil moisture content falls below the minimum threshold.
Server Room Temperature Humidity Monitoring Based on Internet of Thing (IoT)
Journal of Physics: Conference Series
In Monitoring Temperature and humidity for Server Room is a system based an IoT, which provides information while regulating temperature and humidity inside the server room. There are various types of sensors in the prototype, using all parameters of temperature and humidity that can be measured. This system can be used to monitor the temperature or humidity of a particular room or place. The proposed system continuously sends data to the cloud to monitor data from anywhere. For direct monitoring and regulation, the system is equipped with features to provide notifications to users through the telegram application dynamically. The prototype brain is a Raspberry and Arduino module. Temperature and Humidity Sensor (DHT11) are connected to Raspberry. Every time these values exceed the threshold selected for each notification given to the user via the telegram application by utilizing the telegram API. Based on the notification, the user can remotely set the room temperature by giving a...
Implementation of embedded real-time monitoring temperature and humidity system
Indonesian Journal of Electrical Engineering and Computer Science, 2019
Temperature and humidity are among the parameters that significant to the industrial and agricultural. Traditionally, these elements are monitored inefficiently through wired monitoring system that caused higher implementation and maintenance cost. In addition, the device to detect the temperature such thermometer is not suitable for real-time monitoring since it need a longer response time to measure. With the advent of wireless technology, the temperature and humidity are monitored remotely and effectively. This paper aims to describe the implementation of an embedded real-time temperature and humidity monitoring system, using Arduino for Internet of Things (IoT) application. The system integrates the Arduino node with a dashboard system call Node-FRED, which interfaced to the LoRa radio through the Things Network gateway. This IoT application is deployed on both indoor and outdoor environment, to investigate the relation between the temperature and humidity level in order to man...
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.
Best : Journal of Applied Electrical, Science and Technology, 2023
University of PGRI Adi Buana Surabaya is a university located in Surabaya, East Java. All data management processes and academic information systems are connected to the server via a local network and the internet. Currently there are three server rooms owned by the University, namely: the main Server room in the PGSD Building, second floor; Backup Server room in the Postgraduate building, third floor; and network Server room in the Ngagel campus, building a, second floor. The server room accommodates network equipment and database servers require temperature and humidity that are always maintained and routinely need to be checked by officers. To avoid damage to the server and network devices in the server room, a temperature and humidity detection system based on the Internet of Things (IoT) is made. This system is built using Home Assistant as an application of Internet of Things (IoT) centralized control system and CCTV to display conditions in real-time in each server room. Sensor to detect temperature and humidity using the DHT11 Sensor, the ESP8266 Microcontroller acts as a link between the host and the sensor by utilizing a wireless network. This tool can provide benefits in the field of Information Technology and Data in terms of monitoring so that it officers can check anytime and anywhere through a Web Service.
Proceedings of the First Mandalika International Multi-Conference on Science and Engineering 2022, MIMSE 2022 (Informatics and Computer Science), 2022
The data center is a significant space that serves as a place to store equipment related to the server. Important data must also be safeguarded inside the server room itself, thus security standards are required to safeguard the space, starting with air temperature, humidity, fire disaster prevention, etc. In this paper, the authors propose an Internet of Things (IoT)-based system that uses MPX5100dp sensor for measuring room pressure, the DHT11 sensor, to detect humidity and temperature, with Node-MCU ESP8266 as the transmitter and microcontroller, and the Blynk application as the MQTT bridge to display the measurements and actuator reactions on mobile phones with Android as the platform. The mechanism on this device can track the temperature of the data center's room in real time and could run as expected. This has been proven by testing.
ComTech: Computer, Mathematics and Engineering Applications
The Internet of Things (IoT) aims to expand the benefits of being connected to the Internet network continuously. It functions as a control system that has been widely applied in various fields because in certain case people are not allowed in certain rooms for security reasons. The research aimed to create a temperature and humidity monitoring system using as many fan controls as expected by utilizing IoT. The model used input in the form of temperature and humidity sensors. The output was a motor driver that drove a fan and used a microcontroller as the main processor. IoT-based systems consisted of hardware and software. Hardware included NodeMCU ESP8266 V3, DHT22 sensor, L298N motor driver module, fan, and computer. Meanwhile, the microcontroller software was made using Arduino IDE. From the test results, the system model works well. Fan control is set manually based on desired room temperature and humidity monitoring based on IoT. A mobile phone can also monitor temperature and...