Literature Review Of Smart Irrigation System
- #LITERATURE REVIEW OF SMART IRRIGATION SYSTEM UPDATE#
- #LITERATURE REVIEW OF SMART IRRIGATION SYSTEM MANUAL#
- #LITERATURE REVIEW OF SMART IRRIGATION SYSTEM CODE#
Also, always choose the TTL enabled output pins to interface it directly with Arduino without any inconvenience. Make sure to double check the GSM power requirement in your project before choosing the suitable GSM module for your device. Then provision of RS232 output is provided. GSM modules are manufactured by connecting a single GSM modem to PCB. In Asia, most of the mobile phone operators operate in the 900 MHZ band. TTL SIM800 GSM Module is assembled in 24*24*3mm size to fit almost every device be it smartphone PDA etc. GSM modules are highly compatible with Arduino and microcontrollers. This quad-band GSM module works on frequencies ranging from GSM 850MHz, EGSM 900MHz, DCS 1800MHz and PCS 1900MHz. In our project, we have interface the GSM module with Arduino and TTL output is taken. This device is connected with PCB to take different types of outputs from the board. We have used SIM800 GSM module in our irrigation system project and interfaced with the Arduino to send and receive messages. The second most important part of this project is GSM module that is used along with the Arduino microcontroller for communication. It can be used for interior plant to supply water regularly for irrigation.
#LITERATURE REVIEW OF SMART IRRIGATION SYSTEM MANUAL#
This device can be used in home gardens and lawns to eradicate the need of manual plant watering process.
![Literature Review Of Smart Irrigation System Literature Review Of Smart Irrigation System](https://image.slidesharecdn.com/1334d744-d754-414b-b23e-fbca80c3e35b-161101185838/95/main-project-15-638.jpg)
#LITERATURE REVIEW OF SMART IRRIGATION SYSTEM CODE#
We will be discussing the interfacing and simulation code of the circuit in later part of this article. We have interfaced the moisture sensor with Arduino UNO board. When soil is moist, the current will start flowing from one terminal to another, working as a closed circuit. When the soil is dried, no current will flow through it and it works like an open circuit. Soil moisture sensor works on the principle of open and closed circuit. The output is taken directly from the first terminal of soil moisture sensor pin. Second plate is connected directly to the ground. First plate is connected to the +5v power supply. As Soil moisture sensor simply acts as two conducting plates.
![Literature Review Of Smart Irrigation System Literature Review Of Smart Irrigation System](https://www.irrigationoutlet.com/wp-content/uploads/2021/04/ESP4SMTE-2-1-2-1.jpg)
Related Project: Rain Alarm Circuit – Snow, Water and Rain Detector ProjectĪs discussed above, soil moisture sensor consists of two conducting plates which function as probe. This is the reason moisture level will be lower. When there is less water in the soil, it will conduct less electricity and therefore resistance will be more. Dry soil is a poor conductor of electricity. As a result, the moisture level sensed by the sensor will be higher. When there is water present in the soil, there will be less resistance and therefore soil will conduct electricity. These two probes allow the current to pass through the soil and then it gets the moisture value present in the soil. There are two probes in the soil moisture sensor which is used to measure the volumetric content of water in soil. Interfacing Soil Moisture Sensor and GSM Module with Arduino.This project is highly reliable and useful to eliminate the need of manpower from irrigation process in fields.
#LITERATURE REVIEW OF SMART IRRIGATION SYSTEM UPDATE#
When the circuit finds enough moisture in the soil, the motor pump gets off.Īlso, we have used GSM module to update your regularly about the condition of moisture in soil and water pump. To overcome this problem, we are going to design a smart irrigation system that checks the moisture level in soil and provide water to the plants automatically. You can tailor the water schedules and run time using this smart irrigation system device.Ībout 50% of water losses are caused due to inefficiencies of traditional irrigation systems that cause overwatering.
![Literature Review Of Smart Irrigation System Literature Review Of Smart Irrigation System](https://i1.rgstatic.net/publication/339379875_IoT-Based_Smart_Irrigation_Systems_An_Overview_on_the_Recent_Trends_on_Sensors_and_IoT_Systems_for_Irrigation_in_Precision_Agriculture/links/5e4e7cc1299bf1cdb938ed8a/largepreview.png)
Through this article, we will be discussing the design process of smart irrigation system project than can be used to water the plants automatically while you are sitting at the comfort of your home. The aim of this irrigation system is to detect the moisture content in soil and run the motor pump automatically.Īpart from the agriculture field, we also need an automated plant irrigation system at our home to take care of our plants in our absence. In this post, we will be discussing a smart and simple irrigation system that is designed using low-cost materials. All they need is a simple and low-cost machine that can be used easily for agricultural purposes. Unfortunately, such machines are not affordable by farmers due to high cost. However, there are several machines which can be used in agriculture field by farmers to ease their work. Irrigation is the most important part of agriculture to yield maximum profit from your investment in the field. No doubt, automation increases the productivity and saves a lot of time and effort. Nowadays, every work can be done in the easiest way by the use of machines. India is a country where 70% of the population depends on agriculture for their livelihood.