Prediction of Water Content of Eucalyptus Leaves Using 2.4 GHz Radio Wave

S. Peden, Ronald C. Bradbury, D. Lamb, M. Hedley
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Abstract

Assessing plant water status is important for monitoring plant physiology. Previous studies showed that radio waves are attenuated when passing through vegetation such as trees. The degree of radio frequency (RF) loss has previously been measured for various tree types but the relationship between water content and RF loss has not been quantified. In this study, the amount of water inside leaves was expressed as an effective water path (EWP), the thickness of a hypothetical sheet of 100% water with the same mass. A 2.4331 GHz radio wave was transmitted through a wooden frame covered on both sides with 5 mm clear acrylic sheets and filled with Eucalyptus laevopinea leaves. The RF loss through the leaves was measured for different stages of drying. The results showed that there is a nonlinear relationship between effective water path (EWP) in mm and RF loss in dB. It can be concluded that 2.4 GHz frequency radio waves can be used to predict the water content inside eucalyptus leaves (0 < EWP < 14 mm; RMSE ± 0.87 mm) and demonstrates the potential to measure the water content of whole trees.
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2.4GHz无线电波预测桉树叶片含水量
评估植物水分状况对于监测植物生理学非常重要。先前的研究表明,无线电波在穿过树木等植被时会衰减。先前已经测量了各种树木类型的射频(RF)损失程度,但水分含量和RF损失之间的关系尚未量化。在这项研究中,叶片内部的水量被表示为有效水路径(EWP),即相同质量的100%水的假设薄片的厚度。2.4331 GHz的无线电波通过两侧覆盖有5 mm透明丙烯酸薄片的木框架传输,并填充有桉树叶片。在不同的干燥阶段测量通过叶片的RF损失。结果表明,以毫米为单位的有效水道(EWP)与以分贝为单位的射频损耗之间存在非线性关系。可以得出结论,2.4GHz频率的无线电波可以用于预测桉树叶片内部的含水量(0
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