Transcript 1.abstract
Student’s Name with USN No.
Guide Name
HOD Name
College Name, Dept.
CONTENTS:
1.
Abstract.
2.
Objective.
3.
Block diagram.
4.
Methodology.
5.
Advantages and Disadvantages.
6.
Applications.
7.
Conclusion.
1.ABSTRACT:
Effective management of water resources is of key concern in
cropping systems in semiarid and arid areas. Distributed sensor-based
irrigation systems provide an efficient solution to support site-specific
irrigation that allows farmers to maximize their crop growth along with
saving
water.
2.OBJECTIVE:
In the field of agriculture, use of proper method of irrigation is
very important from yield point of view and scarcity of water.
IRRIGATION is the most essential practice in agricultural
cropping systems in semiarid and arid areas. The major concern with
irrigation activities in arid and semi arid areas is the efficient water use
applications and management
3.BLOCK DIAGRAM:
BUFFER
RELAY
DRIVER
TRANSMITTER
OUTPUT DEVICES
BUZZER
OR
MOISTURE
DC MOTOR AS
WATER SPRINKLER
M
OR
VISUAL
INDICATION
HUMIDITY
ARM PROCESSOR
128 X 64 DISPLAY
XBEE TX
+12 Volts
+5 Volts
230 V, AC
Supply
TRANSFORMER
RECTIFIER
FILTER
REGULATOR
HARDWARE REQUIREMENTS:
ARM 7 / Cortex M3, LCD, Relay Driver, Relays, Resistors, Capacitors, LEDs, Crystal, Diodes, Transformer, Voltage Regulator,
Push Button.
SOFTWARE REQUIREMENTS:
Keil compiler uVision 4, Language: Embedded C or Assembly, WLPRO Programmer
RECEIVER
BUFFER
DRIVER
RELAY
OUTPUT DEVICES
BUZZER
VISUAL
INDICATION
XBEE RX
ARM PROCESSOR
LCD DISPLAY
4.METHODOLOGY:
This project is developed to reduce the work load of a Former
and to sense the parameters like Humidity and Moisture. After sensing
those parameter depending on the scenario the ARM controller will take
appropriate action and the same information will be transmitted to the
receiver via XBee which is there at the transmitter. The main modules in
this project are Sensors (Humidity Sensor and Moisture Sensor), ARM
controller unit with LCD display and output device.
This whole model can be placed in the field for irrigation
purpose. This model has two Sensors as an input device to sense the field
condition with respect to moisture and humidity and depending on the
parameter measured the controller will take appropriate action. And the
same information will be transmitted via XBee to the receiver which is
placed at the former and there also the controller activates output to
indicate action which is happen in the field. This module continuously
monitors the field of the place where it is placed. If the Moisture or
Humidity of the field varies, then the ARM controller will activates the
buzzer to convey the information.
5.ADVANTAGES AND DISADVANTAGES:
ADVANTAGES:
1.
All the components required are easily available.
2.
It is accurate [Errors are nullified] & precise as it is Digital.
3.
Low power consumption.
4.
Less hardware involved and Cost Efficient.
5.
Automatically controlled & Easy to use.
6.
Unnecessary wastage of electricity can be controlled to a greater
extend.
7.
Eliminate or at least minimize runoff
8.
Raise healthy plants
9.
Avoid soil erosion or land movement caused from excessive
irrigation
DISADVANTAGES:
In this project usage of relays leads to consume more power.
One time investment.
6.APPLICATIONS:
This project can be implemented in Home, School, Colleges, and
Companies etc…
Where we have to reduce the work load of human, former and to
sense the parameters like Humidity and Moisture there we can
implement this project.
7.CONCLUSION:
The system provides with several benefits and can operate with
less manpower. The system supplies water only when the humidity in the
soil goes below the reference. Due to the direct transfer of water to the
roots water conservation takes place and also helps to maintain the
moisture to soil ratio at the root zone constant to some extend. Thus the
system is efficient and compatible to the changing environment. Also the
system saves the water and improves the growth of plants.
THANK YOU
ANY QUESTIONS?