不同含水量林冠的射频损耗模型

S. Peden, Ronald C. Bradbury, D. Lamb, M. Hedley
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引用次数: 0

摘要

植物水分状况的检测对于监测植物生理学具有重要意义。先前的研究表明,无线电波在穿过树木等植被时会衰减,并开发了模型(包括经验模型和分析模型)。然而,为了使模型更广泛地适用于各种植被类型和结构,需要对植被的基本电气特性进行表征。在我们之前的工作中,开发了一个模型来计算不同含水量植被的RF损失。在本文中,该模型被扩展到计算有或没有气隙的树冠的RF损失。当将该模型与使用白桉树(有叶和无叶)获得的实际RF损失进行比较时,存在相当于13%的残留水分含量的系统偏移,这归因于结合水。当根据额外的含水量调整模型时,发现有效水道(EWP)可以解释测量的RF损失中72%的方差。
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RF Loss Model for Tree Canopies with Varying Water Content
Detection of plant water status is important for monitoring plant physiology. Previous studies showed that radio waves are attenuated when passing through vegetation such as trees, and models (both empirical and analytical) were developed. However, for models to be more broadly applicable across a broad range of vegetation types and constructs, basic electrical properties of the vegetation need to be characterised. In our previous work, a model was developed to calculate the RF loss through vegetation with varying water content. In this paper, the model was extended to calculate RF loss through tree canopies with or without an air gap. When the model was compared with the actual RF loss acquired using Eucalyptus blakelyi trees (with and without leaves), there was a systematic offset equivalent to a residual moisture content of 13% that was attributed to bound water. When the model was adjusted for the additional water content, the effective water path (EWP) was found to explain 72% of the variance in the measured RF loss.
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