This system uses sensor technology with the microcontroller, relay, DC motor and battery. Behave as an intelligent switching system that detects the soil moisture level and irrigates the plant if necessary. The ON / OFF motor will automatically be based on the dryness level of the soil.
ppt submit by Prashant D. Auti
3. CONTENTS
1. ABSTRACT
2. INTRODUCTION
3. PROBLEM STATEMENT
4. LITERATURE SURVEY
5. PROPOSED SYSTEM
6. FLOW DIAGRAM
7. FUTURE SCOPE
8. CONCLUSION
9. REFERENCES
SMART AUTOMATED IRRIGATION SYSTEM BY USING ARDUINO 3
4. ABSTRACT
Current global technology plays an important role in the field of agriculture.
Automation is the technology with which a procedure or process is executed without
human assistance. The main objective of this work is to determine how a person can
use the automatic irrigation system of his own moderately economical facilities in a
few hours to connect some electronic components and other materials. An automatic
irrigation system based on sensor-based systems has been designed and implemented
as one of the most widely used and advantageous automatic systems. This will help
people in their daily activities, thus saving them time and hard work. This system uses
sensor technology with the microcontroller, relay, DC motor and battery.
MOBILE CONTROLLED IRRIGATION, SMART
IRRIGATION, SENSER CONTROLLED
KEYWORD-
SMART AUTOMATED IRRIGATION SYSTEM BY USING ARDUINO 4
5. SMART AUTOMATED IRRIGATION SYSTEM BY USING ARDUINO 5
INTRODUCTION
• The Project 'Smart Irrigation System' is used for the optimization use of
water in agricultural field without the intervention of farmer by using soil
moisture.
• Sensor that senses the moisture content of the Soil using Microcontroller
that turn ON/OFF the pump automatically according to the need of water for
irrigation.
6. SMART AUTOMATED IRRIGATION SYSTEM BY USING ARDUINO 6
1. The absence of automatic controlling of the system result in improper
water control system.
2. The major reason for these limitations is the growth of population which
is increasing at a faster rate.
3. At present there is emerging global water crisis where managing scarcity
of water has become a serious job.
.
PROBLEM STATEMENT
7. SMART AUTOMATED IRRIGATION SYSTEM BY
USING ARDUINO 7
LITERATURE SURVEY
On the basis of the literature review, we have proposed
a GSM based automatic irrigation system having promising scope.
Proposed work attempts to save the natural resources available for
human kind by continuously monitoring the status of the soil, the flow of
water can be controlled and thereby reduce the wastage.
10. SMART AUTOMATED IRRIGATION SYSTEM BY USING
ARDUINO 10
FUTURE SCOPE
This smart irrigation system extends watering time for plants,
and provides ideal growth condition. It saves time and timer delay as per
the environmental condition can be added for automatic watering. This
smart irrigation system can be adjusted and modified according to the
changing environment.
11. SMART AUTOMATED IRRIGATION SYSTEM BY USING ARDUINO 11
CONCLUSION
Thus the “Automated Irrigation system based on soil moisture
using Arduino” has been designed and tested successfully. It has been
developed by integrated features of all the hardware components used.
12. SMART AUTOMATED IRRIGATION SYSTEM BY USING ARDUINO 12
REFERENCES
Ali, M. A., Islam, M. S., Sarker, M. N. I., & Bari, M. A. (2015). Study on Biology of Red
Pumpkin Beetle in Sweet Gourd Plants. International Journal of Applied Research Journal,
2(1), 1–4.
Baraka, K., Ghobril, M., Malek, S., Kanj, R., & Kayssi, A. (2013). Low cost
Arduino/Android based Energy-Efficient Home Automation System with Smart Task
Scheduling. In Fifth International Conference on Computational Developing a Smart Irrigation
System Using Arduino 38 International Journal of Research Studies in Science, Engineering
and Technology V6 ● I1 ● 2018 Intelligence, Communication Systems and Networks (pp.
296–301). https://doi.org/10.1109/CICSYN.2013.47
Caetano, F., Pitarma, R., & Reis, P. (2015). Advanced System for Garden Irrigation
Management. In New Contributions in Information Systems and Technologies (pp. 565– 574).
https://doi.org/10.1007/978-3-319-16486- 1_55