Laboratory Evaluation of a Low-Cost Soil Moisture and EC Sensor in Different Soil Types

IEEE Transactions on AgriFood Electronics Pub Date : 2024-03-06 DOI:10.1109/TAFE.2024.3385610

Vamsee Krishna Bodasingi;Bakul Rao;Harish K. Pillai

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Abstract

Soil moisture and electrical conductivity (EC) measurements are vital for improving water usage efficiency and monitoring soil salinization. Water stress and groundwater salinity are the twin problems associated with excessive groundwater extraction and irrigation with saline water. Small and marginal farmers are the majority in India and require low-cost sensors for measuring soil moisture and EC. This work evaluates the performance of a low-cost capacitance-resistive sensor for soil moisture and EC measurement in different soil types. The results show that bulk EC and bulk density of the soils moderately affect the sensor output (oscillation frequency) for moisture measurement. The multilinear regression models developed using experimental data for moisture have an R ² of 0.93, which is at par with the commercial sensors reviewed by researchers. Bulk EC variation with moisture showed significant variation with soil type due to differences in the salinity levels of soil samples. Therefore, the field devices require standard EC thresholds for salinity similar to laboratory standards.

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低成本土壤水分和导电率传感器在不同土壤类型中的实验室评估

土壤水分和导电率（EC）测量对于提高用水效率和监测土壤盐碱化至关重要。用水紧张和地下水盐碱化是与过度抽取地下水和盐水灌溉相关的双重问题。印度以小农和边缘化农民居多，需要低成本的传感器来测量土壤水分和导电率。这项工作评估了低成本电容电阻传感器在不同土壤类型中测量土壤水分和导电率的性能。结果表明，土壤的体积导电率和体积密度对湿度测量的传感器输出（振荡频率）影响不大。利用湿度实验数据建立的多线性回归模型的 R2 为 0.93，与研究人员审查过的商用传感器相当。由于土壤样本的盐度不同，体积导电率随水分的变化随土壤类型的不同而有显著差异。因此，现场设备需要与实验室标准类似的标准导电率盐度阈值。

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IEEE Transactions on AgriFood Electronics

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