IOT and Raspberry-Pi Based Smart Irrigation System (original) (raw)
Related papers
IoT Based Agriculture Monitoring and Smart Irrigation System Using Raspberry Pi
IOT is a shared Network of objects where these objects interact through Internet. One of the important applications of IOT is Smart Agriculture. Smart Agriculture reduces wastage of water, fertilizers and increases the crop yield. Here a system is proposed to monitor crop-field using sensors for soil moisture, humidity and temperature. By monitoring these parameters the irrigation system can be automated if soil moisture is low.
IOT BASED AUTOMATED IRRIGATION SYSTEM USING RASPBERRY PI
IAEME PUBLICATION, 2020
Internet of Things (IoT)is a shared network of objects or things which can interact with each other provided the internet connection. IoT plays an important role in agriculture sector which can feed 9.6 billion people on the Earth by 2050. Smart Agriculture helps to reduce wastage, effective usage of fertilizer and thereby increase the crop yield. In this work, a system is developed to monitor crop-field using sensor (soil moisture) and automate the irrigation system. The irrigation is automated if the moisture of the field falls below the brink. This system will be more useful in areas where water is in scarce and more efficient than the conventional approach.
IoT Based Smart Agriculture Aid System using Raspberry Pi
Regular issue, 2021
Agriculture is the worldwide one of the most important occupation of human being, nearly about 64% of total available land on earth is occupied by the agriculture sector, which results in comsuming 85% of fresh water. This percentage of water consumption increases every year due to globalization and fulfilling human needs. Every country face challenge to sustain the fresh food requirement and reducing the farm water consumption. Сurrently, the fаrmers look over at irrigаtiоn methоds mаnuаlly аnd irrigаte their аreа on a constant routine рeriоd. These process acquire large аmоunt оf wаter and as a result water is wasted. Therefоre, Raspberry Pi соmmuniсаtiоn system is preferred beсаuse оf its easy operation, mаintenаnсe аnd cost. This prototype is automated which will irrigate the crop by detecting the moisture content and also will keep an eye on the soil quality.
Automation irrigation system using arduino for smart crop field productivity
International Journal of Reconfigurable and Embedded Systems (IJRES), 2023
Agriculture is essential to the prosperity of agricultural countries like India. Thus, the suggested strategy is to use automation and internet of thing (IoT) technology to make agriculture smart. Applications enabled by the IoTs include irrigation decision assistance, crop growth monitoring and selection, and more. an Arduino-powered technology that boosts agricultural productivity. This study's main goal is to find the least quantity of water necessary to grow crops. Most farmers squander a lot of time on the fields rather than concentrating on the water that plants have access to at the right moment. The suggested system determines the required amount of water based on the data obtained from the sensors. Two sensors provide data on the soil's temperature, humidity, amount of sunlight each day, and soil temperature to the base station. The suggested systems must determine the amount of water required for irrigation based on these criteria. The system's main benefit is the use of precision agriculture (PA) in conjunction with cloud computing, which will maximise the use of water fertilisers while maximising crop yields and also assist in determining field weather conditions.
Internet of Things (IOT) FOR AGRICULTURE
IJCSMC, 2019
Agriculture is a sector that contributes highest to India's GDP. The present necessity is that the utilization of water must be efficient and effective. As the population is growing rapidly and there is rapid urbanization and climatic changes, the stress for managing the water resource has been increased. When there is mismanagement of this natural resource in the fields, it not only leads to water scarcity but also affects the crops in the field due to under or over watering. The human interpretation in fields leads to wastage of energy and time. And also the human calculations regarding the soil moisture, water content in the fields cannot be accurate. So, there is need of optimizing the water consumption, where for the irrigation process, a control system and a monitor is required. In our paper, we have focused on the automation of irrigation process aiming on higher growth of crops and efficient use of water. The hardware consists of DHT11 sensor which measures the surrounding air, soil moisture sensors which estimates the volumetric water content and a raspberry pi. Furthermore, the model also monitors the weather conditions and ensures the water is used smartly.
IOS Press eBooks, 2023
Country like India, the majority of the people is employed in the agriculture sector. The physical presence of so many people cause low per capita income. Therefore, there is a need to have the methods of farming to be integrated with technology. In the present research work with the application of sensors, a smart irrigation system has been modeled. When the soil really needs water, the farmer can switch on the water supply system even when in a remote location. Also, monitoring of the same could be done round the clock. The results have been achieved using a hardware demonstrating model, in which sensors are programmed on the android platform with the software codes written in JavaScript. The results have been very encouraging in taking timely and swift action to have optimum production from the fields. Also, it has been found to be 30% more efficient in saving water in comparison to the traditional manner. The efficiency in the area of energy consumption is also significant. The modernization of the agricultural field with the help of IoT technology leads to a new era of excellent productivity and decreases the expenses
Internet of Things (IoT)-based Smart Irrigation System for Sustainable Agriculture
Journal of Informatics Electrical and Electronics Engineering (JIEEE), A2Z Journals, 2023
A collection of networked devices having self-configuring capabilities is called the In-ternet of Things (IoT). The Internet of Things (IoT) has revolutionized every element of the typical person's everyday existence by making everything intelligent and smart. In order to monitor and regulate the field's environment in real time, this study suggests an Internet of Things (IoT)-based smart irrigation system that makes use of cloud computing, a variety of sensors, and a microcontroller. The system aims to reduce the time and energy of farmers by automating the process of monitoring field conditions and show the real-time measurement on mobile application and web application. To enable automation using IoT devices, the gathered data is processed and kept on the cloud. Temperature (DHT-11), humidity (DHT-11), soil moisture, water pump, fertilizer management (pH meter), and raindrop monitor are among the experiment's outcomes. The technology interacts with farmers to conduct decision-making analysis, and it has the ability to boost crop output and cut down on resource waste in the agriculture industry.
AUTOMATIC IRRIGATION SYSTEM DESIGN AND IMPLEMENTATION BASED ON IOT FOR AGRICULTURAL DEVELOPMENT
IRJMETS Publication, 2022
Village agriculture is very important in Bangladesh. In emerging nations like our own, agriculture has a significant impact on national GDP. Basically, because of our current circumstances, the monsoons, which are agriculture's primary source of water, are insufficient. The irrigation system is used in agriculture as a solution to this issue. In this technique, the agricultural field will receive water depending on the type of soil. In agriculture, there are two factors to consider: the soil's moisture content and its fertility. There are already a variety of irrigation options available to lessen the demand for rain. An electrical power on/off schedule controls this kind of method. The use of IOT to create a smart irrigation system is covered in this article. Our method uses hydropumps to regulate multiple pumps at once, which saves time and energy. This system will have a significant impact on the national economy if we implement it.
Application of IoT and Cloud Computing in Automation of Agriculture Irrigation
Journal of Food Quality
All living things, including plants, animals, and humans, need water in order to live. Even though the world has a lot of water, only about 1% of it is fresh and usable. As the population has grown and water has been used more, fresh water has become a more valuable and important resource. Agriculture uses more than 70% of the world’s fresh water. People who work in agriculture are not only the world’s biggest water users by volume, but also the least valuable, least efficient, and most subsidized water users. Technology like smart irrigation systems must be used to make agricultural irrigation more efficient so that more water is used. A system like this can be very precise, but it needs information about the soil and the weather in the area where it is going to be used. This paper analyzes a smart irrigation system that is based on the Internet of Things and a cloud-based architecture. This system is designed to measure soil moisture and humidity and then process this data in the ...
Implementation of Precision Agriculture Through Iot Using Raspberry Pi
International Journal of Advance Research and Innovative Ideas in Education, 2021
This paper reflect on the implementation of IOT enabled farming, especially for the people needed a smart way of agriculture. Wireless sensor network application. In the agricultural sector are gaining popularity with the advancement of the IOT technology. Wireless sensor networks are used in agriculture to sense the important agricultural field parameters, such as temperature, humidity and soil moisture level. The features of this research includes sensor data monitoring using soil moisture sensor which is responsible for measuring moisture of the field, water level sensor which is liable for detecting flooded water, and temperature and humidity sensor which is responsible for tracking out the present temperature and humidity in the atmosphere. It describes the implementation of precision agriculture to monitor various conditions of crops using Raspberry pi. This system could be expected to enhance the crop production by giving timely advice to the crop producers so that necessary steps can be taken accordingly.