Greenhouse Monitoringand Controling Usin Iot (original) (raw)
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IoT-Based Greenhouse Monitoring and Control System
International Journal of Computing and Digital Systems, 2023
In conventional farming, farmers have to go around the farmland physically frequently to estimate the various environmental parameters like temperature, humidity, light intensity and soil moisture to harvest the ready crops at the appropriate time in the best soil possible. Although this conventional farming technique has been utilized for many years, it is irregular and fails to exhibit a high productivity rate because farmers sometimes cannot precisely assess all of the environmental parameters. Greenhouse farming, on the other hand, is a technique whereby the farmers grow crops in ecosystem habitats where all environmental factors are modified to suit the crop type. Automation in a greenhouse is a technology through which farmers may monitor and regulate the greenhouse environment automatically from anywhere in the globe at any time. This work aims to develop an automated greenhouse monitoring and controlling system, which integrates multiple sensors such as a temperature sensor, humidity sensor, light-dependent resistor sensor, and soil moisture sensor to obtain potential environmental parameters of the greenhouse, as well as integrate ESP32 development board, to store, process data and provide WiFi functionality. With the help of the Light Dependent Resistor (LDR), Temperature and humidity sensor and soil moisture sensor, the lighting of the bulb, fan activation and pump triggering can be controlled, respectively, whenever the environmental parameters are below the threshold value. Furthermore, with the help of the WiFi capability of the ESP32 development board, the Internet of Things (IoT) is utilized to store data in a database, process the acquired data, and eventually deliver the information to a user's web application for monitoring the environmental parameters in the greenhouse..
International journal of innovations in engineering and science, 2022
Greenhouse deployment of farms gives hope for the farmers on higher crop yield, through lowering risks against pests, insects and adverse climatic conditions. The purpose of this project is to design and develop a smart greenhouse system that supports stand alone remote monitoring and control of residential greenhouses. To enable users to monitor and control vital crop factors based on their needs. Internet of Things (IoT) can enable a complete remote visualization and control of greenhouse environmental parameters in real time. Monitoring system that monitors and tracks environmental conditions, helping the plants thrive. Wireless Sensor Network that can monitor the temperature, humidity, soil moisture, incident light intensity in the greenhouse filed area. So farmers can recognize the environmental conditions and implement various methods to increase the greenhouse crop production. The Garden Sensors gather and analyze data about changing weather and soil moisture conditions and then connects to the user's Android phone with timely alerts. It continuously monitors the conditions and alerts the user to the changes that require immediate action. Unlike pre-set sprinklers, the Greeves Water Valve automatically controls the existing water system based on data collected by the Garden Sensor and adapts to every change in the plant's requirements. The resulting system is a user-friendly mobile application, a cloud-based storage service, and a responsive greenhouse system
Smart Greenhouse Multıfactor Monıtorıng Usıng Iot
International Journal of Engineering & Technology, 2018
Agriculture plays vital role in the development of agricultural country. Agriculture supports directly or indirectly the economic growth of the country. The biggest thing that holds back the development in the agricultural productivity and efficiency is manual interventions. Agriculture put lots of emphasis on human care in detection and control of different factors such as environment which leads to wastage of manpower and also the desired results are not achieved due to human monitoring error. Greenhouse agriculture in large extent is in urgent need to control the environment factors which give optimum growth of plants. With internet era, proposed work is an integration of greenhouse with IoT. In proposed work Intel Galileo Gen 2 board is used to monitor and control environmental factors for greenhouse like temperature, humidity, soil moisture and light intensity. The user gets updated constantly about the condition of the greenhouse factors using IoT technology. To transmit the data over internet ESP8266Wi-Fi module is used. The experimental results are displayed on ThingSpeak cloud platform. This system avoids the use of dedicated server PC, with the help of internet connectivity user can access the data from anywhere at any time.
Greenhouse Environment Monitoring and Controlling Through IoT
International Journal for Research in Applied Science & Engineering Technology (IJRASET), 2022
Our project is based on IOT (Internet of things) which is very useful for monitoring and controlling the greenhouse environment, Agriculture under the greenhouse environment has more benefit of getting more crops by making proper climatic conditions for plants, fruits and vegetables. This greenhouse monitoring environment system have the transparent paper on the top and it contains the five main sensors they are temperature, humidity, rain, soil, LDR sensors. Most of the farmers are fail to get good crops by various reasons such as diseases due to temperature and humidity, if farmers really concerned about suitable temperature and humidity then they can get good crops and this can possible by providing greenhouse environment. The Arduino Nano is the heart of this project, and the five sensors are senses of their respective value and send to the Arduino Nano, through Wi-Fi module the respective detected value is monitored on the smart mobile where Wi-Fi controller app is there. Temperature sensor detects temperature, if temperature exceeds the threshold value then the fan is automatically on, there by temperature are decreases in the greenhouse environment. If LDR detects the sunlight then light will be off and when the sunlight not fall on the LDR then the light will be on in the greenhouse environment. If Rain sensor detects Rain then through the Wi-Fi controller we can open the top of the Greenhouse environment. The top is to be closed after the rain stop, by the Wi-Fi controller. If Soil sensor detects soil is to be dry then automatically the water pump is ON, and water pump is OFF automatically when soil becomes wet.
Remote monitoring systems in greenhouse based on NodeMCU ESP8266 microcontroller and Android
AIP Conference Proceedings, 2019
This study aimed to design a Greenhouse Remote Monitoring system and to immediately evaluate the monitoring system. The Monitoring system was designed based on the NodeMCU ESP8266 microcontroller to expectedly result an Android monitoring display as the output. This research was conducted in Greenhouse at Faculty of Food and Agroindustrial Technology, University of Mataram. An experimental method using greenhouse and hydroponic system was applied to this research. The monitoring system consisted of components that functionally related to each other (NodeMCU ESP8266, Android, DHT11 (temperature and humidity sensor), BH1750 (light sensor), Total Dissolved Solid (TDS) sensors, and other components that further supported by programming language. The observed parameters were the greenhouse temperature (°C); humidity (%); light intensity (lux); and the amount of TDS (ppm). The experiment indicated that the designed monitoring system successfully displayed what the sensor had read then translated it into Android. The average percentage of the Light meter reading errors using the BH1750 sensor (shown) on Android was 2.13%; the average percentage of the hygrometer reading errors using DHT11 sensor on Android was 0.14%; the average value of the thermometer reading errors as well as DHT11 sensor on Android was 0.76%; while the average TDS reading error on Android was slightly above 5% due to increasing temperature inside the greenhouse, especially in the afternoon period.
Design and Implementation of an IoT Based Greenhouse Monitoring and Controlling System
Journal of Computer Science and Technology Studies
Environment is the key factor in the greenhouse system. To provide monitoring and controlling facility inside the greenhouse, IoT based system is more flexible and suitable solution. To maintain the proper environment inside the green- house, we have designed the system with heating, cooling and water supply facility by integrating the system with heater, cooling fan and water pump. The temperature, humidity and the soil moisture inside the greenhouse continuously monitored and controlled over online platform.
Greenhouse Automation Using Iot
2020
The technology of Internet of Thing (IoT) has been used to develop numerous applications. This paper comprises design and implementation of greenhouse automation system integrated with the IoT feature in order to monitor and control system’s parameters from any place in the world. The greenhouse prototype presented here involves monitoring and control of three vital parameters of greenhouse system namely temperature, water level in soil, and light intensity inside the greenhouse. The details of system implementation can be presented in two partshardware and software. Because of the use of IoT feature, the greenhouse parameters can be monitored and controlled continuously and the collected real-time data from the sensors can be displayed on web-page or app from anywhere in the world at any time. The variation in individual sensor’s data over time can be graphically plotted for improved monitoring and analysis.
IoT Based Automation for Greenhouse Crop Cultivation
Journal of emerging technologies and innovative research, 2021
The leveraging of IoT based automation for Greenhouse crop cultivation. With this Method we are going to analysis the communication between wireless sensors network and the internet. The IoT (Internet of things) gateway is used as part of the greenhouse monitoring system. The design can multiple access with LAN, Wi-Fi, GPRS, 3G, 4G and so on also the data can be stored locally. The IoT gateway uses Node-MCU ESP8266 as the MCU. The application demonstrates the gateway is reliable, compatible, and extendible and it provides the real-time detection and control and also the ability to automation and the intelligent of greenhouse monitoring.
IOT based Greenhouse Automation System
Maintaining the environment for growth of crops in greenhouse is difficult. In world of global warming it's hard to maintain environment factors. A system needs to be developed for monitoring and controlling of greenhouse tasks. Use of modern sensors and on the basis of values obtained by this sensors automation of agricultural tasks can be done.
International Journal for Research in Applied Science and Engineering Technology, 2021
The introduction of conventional methodology as an IOT with the new technologies (internet of things). Agriculture plays a crucial role in the growth of agricultural countries, such as India, where the most of the people are connected directly or indirectly in the cultivation of crops. The typical approach requires a lot of human intuition that struggle at the moment. By modernizing the new conventional methodology of agriculture, the solution to this issue is smart agriculture. In order to manage and track agricultural activities with minimal human efforts, these technologies are being created. The s sensor consists of a humidity sensor, a temperature sensor, a humidity sensor, a light intensity sensor and a Wi-Fi module. The sensor part that interfaces with Arduino alerts the user via the Android application. Based on this, we classify existing and potential patterns of IoT in agriculture by analysis.