1. Automated Irrigation Control System
National Academy of Agrarian Sciences of Ukraine
 Institute of Water Problems and Land Reclamation
Automated Irrigation Control System
Project to the competition innovation projects
”Innovation – 2018”
Author: Aleksander Wojtowich

2. Smart irrigation 2018 Online irrigation monitoring
Field real time monitoring, 24/7 from anywhere
in the world
Our work focused on optimizing water management in agricultural sector

3. Smart irrigation 2018
The proposed system must be able to monitor a crop and automatically supply the amount of water needed, this will be done through a predictive model with input variables regarding the climate, humidity of the subsoil, temperature and the time of the day.

4. Automatic soil moisture detector based on tensiometer
The classical tensiometer vacuum gauge is replaced by an electronic pressure gauge

5. Allowed to obtain indicators of the potential of soil moisture in digital form

6. Controller with mobile data transfer to server
Specifically, we will design a system that is capable of collecting
heterogeneous information from its environment, using sensors for temperature,humidity and moisture.
Main station sensors have batteries that are continuously charged from solar energy.

7. for controlling different types of sensors
Field controller autonomus power supply 
for controlling different types of sensors
Electronic tensiometers of own production
Resistive sensors such as Watermark
Dielectric conductivity sensors

8. Automated monitoring: - air temperature - air humidity
Automated monitoring:
- air temperature
- air humidity
- atmospheric pressure
soil moisture
rain volume measure
- weather forecast for 5 days

9. The developed system can be deployed in any geographical location, provided that there is a data connection (Wi-Fi/3 G GSM) allowing the data from the sensors to be sent to a platform that resides on a central server.
All main station have batteries that are continuously charged from solar energy.

10. Fields generally have very vast areas and sensors often installed at large distances from one another, this is why a wireless connection between them is necessary.

11. Smart irrigation 2018
The distance between the central zones depends on the visibility obetween the nodes. Using a 433 MHz LoRa range we attained interconnectivity between the nodes at a direct line of sight approximately 10 kilometers ..

12. Data from the field is continuously transfer to the server
 Display information in the form of tables and charts

13. View data in real time, as well as in reports per day, month, year
 Ability to inform the user about the state of the field by

14. Main station
Using this system, farmers can install a network of wireless sensors on their farms to gather information on factors affecting the crops’ requirement for water, based on soil moisture, atmospheric temperature and precipitation.