A Method of Monitoring of the Bulb of Quinoa Plantations Orientated to the Dosing of the Water Volume for Drip Irrigation Systems

2018 Congreso Internacional de Innovación y Tendencias en Ingeniería (CONIITI) Pub Date : 2018-10-01 DOI:10.1109/CONIITI.2018.8587086

Eduardo Phellan, Justiniano Gutiérrez, J. Soto, Simán Capuñay, J. López, C. del Carpio

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Abstract

The present work proposes a method of electronic monitoring of physical variables of the plant's wet bulb, in order to properly dose the water volume required for drip irrigation systems. The method has the ability to be conditioned to the need of the plant, in order to maintain an optimum level of humidity in the crop field, as it would be achieved in a laboratory. The monitoring is carried out on the percentage of humidity and the electrical conductivity of the soil. For this, sensors are used that are properly calibrated in the operating ranges of 10 to 30% for humidity and 1.2 to 1.7 ds/m for electrical conductivity [1]. The electronic equipment developed for the implementation of the method uses 3 humidity sensors placed at different depths and 1 electrical conductivity sensor for monitoring salinity. Based on the information sent by these sensors in real time, the activation times of the solenoid valve that makes up the drip irrigation system are adjusted.

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一种以滴灌系统水量计量为导向的藜麦种植园鳞茎监测方法

本研究提出了一种对植物湿球的物理变量进行电子监测的方法，以便为滴灌系统适当地添加所需的水量。该方法能够根据植物的需要进行调节，以保持作物田间的最佳湿度水平，就像在实验室中实现的那样。对土壤的湿度百分比和电导率进行监测。为此，使用的传感器在湿度为10至30%的工作范围和电导率为1.2至1.7 ds/m的工作范围内进行了适当校准。为实施该方法而开发的电子设备使用放置在不同深度的3个湿度传感器和1个电导率传感器来监测盐度。根据这些传感器实时发送的信息，调整构成滴灌系统的电磁阀的激活次数。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2018 Congreso Internacional de Innovación y Tendencias en Ingeniería (CONIITI)

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