TY - JOUR
T1 - Design of an Automated Drip Irrigation System in Tarma Valley by Controlling Soil Moisture
AU - Figueroa-Bados, Jhon
AU - Alanya-Villanueva, Jason
AU - Yalli-Villa, Danitza
AU - Coaquira-Rojo, Carlos
PY - 2021/12/14
Y1 - 2021/12/14
N2 - This article explains and describes the advantages and benefits of designing a soil moisture control system for the drip irrigation system in Tarma Valley. The main results indicate that it is possible to control the humidity level of the soil to 100% and to carry out the hydric restriction to 40% during the period of hardening of the soil. By applying an automated irrigation control system in Tarma Valley, water waste is significantly avoided on farmland in this valley. In the same way, with this drip irrigation system you can control the amount of soil moisture in a simple and easy way. With the execution of this project, the drip irrigation system in the Tarma Valley, the growth of the plants will be optimized in accordance with a high-quality control. It is concluded that it is possible to design a soil moisture control system for the drip irrigation system in Tarma Valley.
AB - This article explains and describes the advantages and benefits of designing a soil moisture control system for the drip irrigation system in Tarma Valley. The main results indicate that it is possible to control the humidity level of the soil to 100% and to carry out the hydric restriction to 40% during the period of hardening of the soil. By applying an automated irrigation control system in Tarma Valley, water waste is significantly avoided on farmland in this valley. In the same way, with this drip irrigation system you can control the amount of soil moisture in a simple and easy way. With the execution of this project, the drip irrigation system in the Tarma Valley, the growth of the plants will be optimized in accordance with a high-quality control. It is concluded that it is possible to design a soil moisture control system for the drip irrigation system in Tarma Valley.
M3 - Original Article
JO - 2021 4th International Conference on Robotics, Control and Automation Engineering, RCAE 2021
JF - 2021 4th International Conference on Robotics, Control and Automation Engineering, RCAE 2021
ER -