Automatic Irrigation Control System based on Lab-VIEW Arduino Interfacing (original) (raw)
Related papers
— The research aim was to the study the intelligent soil moisture control system in agricultural green house based on Adriano Uno microcontroller automation control. This kind of intelligent soil moisture control system helps to control the moisture level of the field and supply the water if required. In this research embedding a control system into an automatic water pump controller depend upon the moisture of the soil. This system also ability to detect the level of methane gas in the green house. The intelligent soil moisture control system in agricultural green house designed in the research had wonderful effort of man-machine interface, it is very simple, cheep and convenient high degree of automation system. Not only that this system helps to prevent wastage of water. This system is a prototype, which makes this self-sufficient, watering itself from a reservoir. Solar energy is used in this system makes it more environment friendly.
Arduino Based Automatic Irrigation System
ADBU Journal of Electrical and Electronics Engineering (AJEEE), 2019
In the present days, the farmers are suffering from severe drought like condition throughout the year. The main objective of this paper is to provide a system leads to automatic irrigation thereby saving time, money a power of the farmers, gardeners in greenhouses etc. Manual intervention is common in traditional farm-land irrigation techniques. This paper presents a technique for Arduino based Automatic Irrigation System. With this automated technology of irrigation, human intervention can be minimized. The moisture sensors will be bedded in on the field. Whenever there is a change in water concentration, these sensors will sense the change and gives an interrupt signal to the microcontroller. Soil is one of the most fragile resources whose soil pH property used to describe the degree of the acidity or basicity, which affects nutrient availability and ultimately plant growth. Thus, the system will provide automation, remote controlling and increased efficiency. The humidity sensor ...
A Research paper on Auto Controlling Irrigation System Using Arduino UNO
International Journal for Research in Applied Science & Engineering Technology (IJRASET), 2022
The rise in population has resulted in food and water shortages in the modern period. So, in order to avoid this situation, we must promote agriculture. Water loss, on the other hand, is more typical in this sector, with irrigate logging happening as irrigation is utilized to water agricultural crops. As a result, an automated plant irrigation system for adequate water delivery in the fields must be created. This article discusses a fully automated irrigation system that monitors soil moisture content and determines whether or not irrigation is necessary, as well as how much water the land requires. The Arduino UNO microcontroller is used in this setup. It has been programmed to monitor the soil's moisture content over time. When the moisture content falls below a specified threshold, it will start supplying the required amount of water until the threshold is attained. As a consequence, when the soil is dry, the pump will automatically water the fields; when the soil is moist, the pump will switch off, decreasing the need for personnel and saving time.
Automated Irrigation System Based on Soil Moisture Sensor
International Journal for Research in Applied Science & Engineering Technology (IJRASET), 2022
In most regions of the world, population growth has resulted in water scarcity. Agriculture wastes a significant amount of water. Water logging during irrigation is the leading cause of water waste in this area. As a result, there is a need to convert to alternate irrigation methods. The Arduino board and a microcontroller are used in this study to suggest an autonomous plant irrigation system. It detects the moisture content of the soil and determines whether or not irrigation is required. It gives appropriate water to the crop after assessing the parameters. When the soil is dry, the pump automatically turns on and distributes water. Similarly, when the soil is wet, the pump shuts down and the crop receives no water. This not only saves water that would otherwise be wasted, but it also ensures that the crop receives only the amount of water it requires. The development of automation technologies has made life simpler and easier in every way. In the modern world, automatic systems are favoured over manual ones. A expanding system of ordinary objects called automatic systems While you're busy, an industrial machine may produce consumer products with additional activities.
Development on Automated Plant Watering System for Soil Humidity
2017
Accepted 16 May 2017 This study presents the development and design process of an automated plant watering system for soil humidity in the potted plants. The study was materialised based on the developed 32-Bit Arduino Uno microcontroller system. Three main transducers used in this project to collect the respective data were soil moisture sensor, humidity sensor and temperature sensor. The LM393 soil moisture sensor and the DHT11 humidity and temperature sensor were placed half the height of the soil in the pot to measure the environment and the surrounding for the soil in the pot. The system was connected with motor pump for irrigation. The motor pump started to water the plants when the soil dried. During this process, the measured data was then being displayed at LCD screen and monitored in real time at GUI created by Visual Basic. The data were displayed in degree Celsius for temperature and for soil humidity in a scale of 0 to 1030. The bigger the scale, the dryer the soil was....
Design and Implementation of an Automatic Irrigation System Based on Monitoring Soil Moisture
An automatic irrigation control system has been designed to facilitate the automatic supply of adequate of water from a reservoir to field or domestic crops in all agricultural seasons. One of the objectives of this work is to see how human control could be removed from irrigation and also to optimize the use of water in the process. The method employed is to continuously monitor the soil moisture level to decide whether irrigation is needed, and how much water is needed in the soil. A pumping mechanism is used to deliver the needed amount of water to the soil. The work can be grouped into four subsystems namely; power supply, sensing unit, control unit and pumping subsystems which make up the automatic irrigation control system. A moisture sensor was constructed to model the electrical resistance of the soil; a regulated 12 volts power supply unit was constructed to power the system; the control circuit was implemented using operational amplifier and timer; and the pumping subsyste...
Automatic Water Controlling System Based On Soil Moisture
2020
Nowadays, population growth has led to water scarcity in most parts of the world. A large amount of water is wasted in agriculture. This article proposes an automatic plant watering system that uses an Arduino UNO and Soil moisture sensor. It automatically detects soil moisture and decides if watering is needed. The automatic watering system, a soil moisture sensor, checks the moisture level in the soil, and if the moisture level is low, the Arduino turns on a water pump to provide the water. The water pump automatically shuts off when the system detects sufficient moisture in the soil. Whenever the system turns the pump on or off, the status of the water pump and soil moisture is updated. This system is fully automated and does not require human intervention. This system is useful for gardens, Farming, etc.