IoT Based Smart Irrigation System Project Guide
IOT BASED SMART IRRIGATION
SYSTEM
PROJECT GUIDE
:
SHRI VINOD KUMAR SINGH
GROUP MEMBERS
:
ARUN KUMAR
INTRODUCTION
Monson dependent Indian Agriculture.
Automatic irrigation.
An over irrigation and under irrigation.
Soil moisture, air humidity, temperature and water
level in the soil are wireless technology for batter
production.
Objectives:
To save water and reduce human intervention in the
agriculture field
To get the output of soil water Sensor and provide
water to crop.
System Hardware Design
The hardware consist of two section :
Transmitter Section
Receiver Section
The system also consist of microcontroller 328P,GSM
module , LCD , and ZigBee module
TRANSMITTER
RECEIVER
WORKING
•
The block diagram of the proposed irrigation system is
shown in Above. The main advantage of the proposed
irrigation system is that it can send the information of a
soil to the user through IOT network for irrigation.
•
Power supply is given to the circuit in the form of
voltage or current. Here soil moisture sensor measures
the water content of soil and its output is fed to the
amplifier, which is used to improve the gain value.
•
And this measured value is given to the Arduino Uno
as analog input. And second input of the Arduino
comes from LDR and laser. These two analog inputs are
converted to digital output values by Arduino Uno.
SENSORS
•
Three sensor used in the system which are
mainly as follows:
•
Temperature
•
Soil moisture
•
Humidity
TEMPERATURE SENSOR
•
LM35
•
Output voltage is linearly proportional to the Celsius
(centigrade) temperature.
•
Temperature range is -55to 150 degree C.
SOIL MOISTURE SENSORS
•
Common type is a frequency domain sensor .
•
Neutron moisture gauge.
•
In this sensor we are using 2 probes to be dipped into the soil
as per moisture we will get analog output variations from
0.60-12 volts.
HUMIDITY SENSORS
•
It measures both air temperature and moisture .
•
Relative humidity expressed as a percentage .
•
HS1100 is used for sensing humidity .
•
The output in terms of frequency range 5khz to
10khz.
ADVANTAGES
•
Increase in productivity.
•
Reduced water consumption.
•
Safe.
•
No manpower required.
•
Reduce soil erosion and nutrient leaching.
•
Require smaller water source.
REFERENCES
•
Tope G., Patel A. 2014 . International Journal
Of Current Engineering And Scientific
Research (IJCESR). VOL.2.
•
www.ijert.org/
smart – irrigation –system –
using –wireless-sensor-network
•
The ZigBee alliance website online available
https://www.zigbee.org
.
THANKYOU
Monsoon-dependent Indian agriculture can benefit from an automatic irrigation system that prevents both over- and under-irrigation. By leveraging wireless technology, such as sensors for soil moisture, air humidity, temperature, and water levels, this project aims to optimize crop production by saving water and minimizing human intervention. The system hardware includes a transmitter section, receiver section, microcontroller 328P, GSM module, LCD, and ZigBee module. Sensors for temperature, soil moisture, and humidity play key roles in providing essential data for effective irrigation management. The implementation involves components like temperature sensor LM35 and soil moisture sensors to monitor and regulate the irrigation process intelligently through an IoT network.
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Presentation Transcript
IOT BASED SMART IRRIGATION SYSTEM PROJECT GUIDE: SHRI VINOD KUMAR SINGH GROUP MEMBERS: ARUN KUMAR
INTRODUCTION Monson dependent Indian Agriculture. Automatic irrigation. An over irrigation and under irrigation. Soil moisture, air humidity, temperature and water level in the soil are wireless technology for batter production.
Objectives: To save water and reduce human intervention in the agriculture field To get the output of soil water Sensor and provide water to crop.
System Hardware Design The hardware consist of two section : Transmitter Section Receiver Section The system also consist of microcontroller 328P,GSM module , LCD , and ZigBee module
WORKING The block diagram of the proposed irrigation system is shown in Above. The main advantage of the proposed irrigation system is that it can send the information of a soil to the user through IOT network for irrigation. Power supply is given to the circuit in the form of voltage or current. Here soil moisture sensor measures the water content of soil and its output is fed to the amplifier, which is used to improve the gain value. And this measured value is given to the Arduino Uno as analog input. And second input of the Arduino comes from LDR and laser. These two analog inputs are converted to digital output values by Arduino Uno.
SENSORS Three sensor used in the system which are mainly as follows: Temperature Soil moisture Humidity
TEMPERATURE SENSOR LM35 Output voltage is linearly proportional to the Celsius (centigrade) temperature. Temperature range is -55to 150 degree C.
SOIL MOISTURE SENSORS Common type is a frequency domain sensor . Neutron moisture gauge. In this sensor we are using 2 probes to be dipped into the soil as per moisture we will get analog output variations from 0.60-12 volts.
HUMIDITY SENSORS It measures both air temperature and moisture . Relative humidity expressed as a percentage . HS1100 is used for sensing humidity . The output in terms of frequency range 5khz to 10khz.
ADVANTAGES Increase in productivity. Reduced water consumption. Safe. No manpower required. Reduce soil erosion and nutrient leaching. Require smaller water source.
REFERENCES Tope G., Patel A. 2014 . International Journal Of Current Engineering And Scientific Research (IJCESR). VOL.2. www.ijert.org/ smart irrigation system using wireless-sensor-network The ZigBee alliance website online available https://www.zigbee.org .
