Automatic Water Saving Irrigation System Using IoT (original) (raw)

IOT based Smart Irrigation System

International Journal of Computer Applications, 2017

Automation of farm activities can transform agricultural domain from being manual and static to intelligent and dynamic leading to higher production with lesser human supervision. This paper proposes an automated irrigation system which monitors and maintains the desired soil moisture content via automatic watering. Microcontroller ATMEGA328P on arduino uno platform is used to implement the control unit. The setup uses soil moisture sensors which measure the exact moisture level in soil. This value enables the system to use appropriate quantity of water which avoids over/under irrigation. IOT is used to keep the farmers updated about the status of sprinklers. Information from the sensors is regularly updated on a webpage using GSM-GPRS SIM900A modem through which a farmer can check whether the water sprinklers are ON/OFF at any given time. Also, the sensor readings are transmitted to a Thing speak channel to generate graphs for analysis.

Automated Irrigation System Using IOT

IJISRT, 2020

Agriculture has a major participation in the earnings of Indian farmers and has brought a huge change in the day to day earnings of Indians. The evolution in the field of agriculture for the betterment of crops and a consistent delivery of produce is particularly expected. For the same suited conditions and appropriate moisture in the fields of crops prove to be a huge task. Mostly the watering of water beds is done using the age-old conventional methods of brook flows from one end to another. Such method of water supply can be improvised by using a programmable watering framework. This new system proposes a programmable watering framework system for the existing fields which intends to reduce human labour and reduction in usage of water hence resulting in an increase of produce. For constructing such a setup, an Arduino Kit is used connected with a Soil Moisture Sensor with a WiFi module. Proposed system's experimental setup connects the data through a cloud framework and then data is acquired over through a web portal. The data is then analysed by the IoT System and it provides appropriate recommendations.

A Review Paper on IoT Based Smart Irrigation System

International Journal of Scientific Research in Computer Science, Engineering and Information Technology, 2019

Automation of farm activities can transform agricultural domain from being manual and static to intelligent and dynamic leading to higher production with lesser human supervision. This paper proposes an automated irrigation system which monitors and maintains the desired soil moisture content via automatic watering. Microcontroller ATMEGA328P on arduino uno platform is used to implement the control unit. The setup uses soil moisture sensors which measure the exact moisture level in soil. This value enables the system to use appropriate quantity of water which avoids over/under irrigation. IOT is used to keep the farmers updated about the status of sprinklers. Information from the sensors is regularly updated on a App using WiFi modem through which a farmer can check whether the water sprinklers are ON/OFF at any given time. Also, the sensor readings are transmitted to a Thing speak channel to generate graphs for analysis.

IoT-Based Approach for an Automated Irrigation Management System

Indian Journal of Natural Sciences, 2021

Agriculture is an important source of income for Indians, and it has had a significant impact on the Indian economy. Crop development for increased yield and higher quality delivery is critical. As a result, optimal conditions and adequate moisture in crop beds can have a significant impact on productivity. Irrigation is mostly done using traditional methods such as stream flows from one end to the other. As a result of this supply, the moisture levels in the fields may vary. The management of the water system can be improved by implementing a planned watering system. This study offers a terrain-specific programmed water system that will decrease manual labor while also optimizing water usage and enhancing agricultural output. . The Arduino kit is combined with a moisture sensor and a Wi-Fi module to create the configuration. Our experimental setup is linked to a cloud framework, and data is collected. After then, cloud services analyze the data and provide suitable recommendations.

Automated Watering and Irrigation System Using IoT

IRJET, 2022

Agriculture is an important source of livelihood for the people. Therefore, farmers use a variety of technologies for better yields and to reduced human intervention. Fast the development of human civilization and the development of new science and technologies change the state of health in the world, leading to significant changes in the environment. In India, population growth of about 2% per year. It is important that food production increases about 2.5% per annum to provide better food. Water resources must be used effectively and efficiently. This technique prevents over and under irrigation. Irrigation plays a vital role in the growth of plants. This automated irrigation system is proposed to provide an optimum amount of water for the growth of crops and to sense the moisture content present in the soil. The proposed system is designed with suitable sensors, signal conditioning circuits, camera module, microcontroller circuit and integrated with IoT environment to achieve automation in agriculture which is the necessity of farmers. It also prevents manual switching on and off of motor pumps. The proposed system helps in managing water efficiently by providing water in required cultivation. The system can also be implemented in small gardens in homes and parks, other than agricultural fields.

Automatic Irrigation System using IoT

Climate change and rainfall has been erratic over the past few decades. Due to this in recent era, climatesmart methods called as smart agriculture is adopted by many Indian farmers. Smart agriculture is an automated and directed information technology implemented with IOT (Internet of Things). IOT is developing rapidly and widely applied in all wireless environments. For this, it is done using remote sensing, microprocessors, IoT, DBMS is proposed. The major objective is to get the real-time data and reduce the water that is lost in the irrigation process and reduce the time spent on the field.

IOT Based Smart Monitoring and Irrigation System

2021

This paper proposes an automatic plant irrigation system by using INTERNET OF THINGS (IoT).The smart object inserted with sensors enables interaction with the physical and logical worlds according to the concept of Internet of Things (IoT). The system is embedded with a moisture sensor that checks the moisture level in the soil. After analysing the values, it provides an adequate amount of water to the crop. The pump automatically switches on and supplies water when the soil is dry. Similarly, when the soil is wet, the pump turns off, and no water is given to the crop. This irrigation system prevents excess water from flowing into the soil, thus reduces wastage of water, electricity and damage to the soil. The purpose is to focus on parameters such as temperature and soil moisture. This is a mobile integrated smart irrigation system using IOT based on application controlled monitoring system. The chief aim behind the design of this project is to control the water supply and monitor ...

Sensor based Smart Irrigation System with Monitoring and Controlling using Internet of Things

The International Journal of Ambient Systems and Applications, 2021

This paper presents the development of a sensor based smart irrigation system with the capabilities of remote monitoring and controlling of water usage in the agriculture field using Internet of Things (IoT). With the employment of IoT in irrigation system, all agricultural information can be viewed and controlled at the user's fingertips. The system consists of a microcontroller (Node MCU), sensors (soil moisture, DHT11), and irrigation of a water pump with a decision-making system. Sensors are linked to a Wi-Fi module (Node MCU) and are interdependent to provide increased sensitivity to the irrigation system. The data obtained will be uploaded to the cloud (ThingSpeak) and presented in the form of graphs accessible via the website. A web page is used to control the water pump for irrigation purposes. This paper is managed to meet all of its aims to help farmers in terms of time, project cost, labor, water consumption, power consumption, and reliability by implementing the IoT-...

Automatic Irrigation and Weather Monitoring System Using Iot

International Journal of Research in Engineering and Technology, 2016

Monitoring the electric water pump through internet of things (IOT) is the main objective of this project. Today, in this modern and developing world everyone wants their needs to be fulfilled in more feasible way at the same time with maximum efficiency. Growth in technology made humans to search for new methods where one could meet the same old requirements with less human effort. The process of switching ON or OFF of a motor has become a problem. It has become very difficult for us to look after the motor every time, to overcome this situation we have come up with an idea of using IOT. The switching ON and OFF of the motor is done with the sensor which we have integrated along. The sensor will automatically switch on when the moisture of the soil goes down below preset value and switches off automatically, as required for a specified crop/soil. This not only efficiencies the crop, but also saves electricity as well time. to ease of use. It also takes the surrounding environment conditions like temperature and uploads directly to the server.

Smart irrigation system based on internet of things (IOT)

Journal of Physics: Conference Series, 2019

Nowadays, the Internet of Things (IoT) technology is very much used in agriculture. Therefore, this paper is about a project that focuses in the field of agriculture with the objective of controlling the water consumption in agriculture field which is based on IoT where all information is viewed and controlled in fingertips. As a part of the system development, few sensors applied such as: (i) a soil moisture sensor (YL-69) to detect the water level in soil; (ii) the humidity and temperature sensor (DHT-11) to trace early signs of temperature changes; and (iii) the pressure sensor (BMP 280) to measure the pressure of the surrounding. These sensors are connected to a Wi-Fi module (Node MCU) and they are interdependent to give extra sensitivity to the irrigation system. The data collected will be uploaded to the cloud (ThingSpeak.com and Firebase) and displayed in the form of graphs that could be seen through the app and website. The app functions to display the reading from the sensors and to control the water pump for emergencies purposes. In conclusion, the project managed to fulfil all its objectives in the aspects of water consumption, minimal project cost, less labour, power consumption, and reliability.