2. INTRODUCTION
The raising population ,the agricultural production is needed. The irrigated agriculture has been an extremely
important source which increases the production and its value
Now a days people wants to look their work from anywhere in manner of digital devices such as smartphone
and tablet or laptop. These things are done easily by using Internet of thing (IoT).
This presentation on “IOT base smart irrigation system “ is for to create an IOT based irrigation mechanism
which makes the pumping motor ON and OFF on detecting the available moisture content and sufficient
water level .
The data through IOT platform has to be passed and this results overcoming of labour intensive work and also
controls the water management system.
Here we use hardware and software components for all this process.
3. LITERATURE REVIEW
Here the block diagram represents the internal work
and some external work as well.
We use soil moisture sensor to detect soil moisture
and the other sensors are also used to sense
particular things.
These values are carried out to Arduino board and
from there to other components.
The driver circuit helps to switch the voltage and the
farmer will be intimated by these are of current
field condition.
By this system that user can access all the details
and also about the conditions of field anywhere at
anytime .
4. SUMMARY
• This smart irrigation system uses temperature, soil moisture
and humidity sensor to measure and resultant will be sent to
farmer.
• This real time system must be based modules for this project.
• Those modules are named as zigbee and GSM.
• This system is versatile and economical. It doesn’t need
individuals on work of it is so easy and reliable.
5. PROJECT PLANNING
• For this project design following steps are used
• Checking first about scope, project charter
• Then scheduling the project.
• Availability of resources and using resources
• The prominent one is cost and budget of whole project that’s to be done.
• Implementing and executing
• Checking the quality before finishing has to be done.
• Risk
• Communication
• Execution and closing the project.
6. CONCLUSION
I conclude that this system is easy to implement.
This project going save time, money, and manpower for irrigation
fields
IOT based smart irrigation system displays the output values of
those sensors
These are connected to smartphone or computer’s web page and
farmer can operate them any time and any where
Increase of productivity
Water conservation taken place
7. FUTURE SCOPE
This smart irrigation system is feasible and cost effective for optimizing resources of water in
agriculture production.
It can help improving the irrigation sytem in places with water scarcity.
Hence this results good production and great saving of time and money
It is linked to some GSM module which makes to be sustainable for long years
This technology makes comfortable in working and automation makes this level up
8. REFERENCES
1) (2009) The Zigbee Alliance website. [Online]. Available: http:// www.zigbee.org/ .
2) R.Subalakshmi and Anu Amal, “GSM Based Automated Irrigation using Sensors” presented
at Special Issue published in International Journal of Trend in Research and Development (IJTRD),
March-2016R.Subalakshmi and Anu Amal, “GSM Based Automated Irrigation using Sensors”
presented at Special Issue published in International Journal of Trend in Research and Development
(IJTRD), March-2016.
3)https://www.researchgate.net/publication/321854296_ARDUINO_BASED_SMART_IRRIGATION_SY
STEM_USING_IOT