Water-filled testbed modeling, design, and fabrication for performance validation of a holographic subsurface RADAR antenna

2021 11th International Workshop on Advanced Ground Penetrating Radar (IWAGPR) Pub Date : 2021-12-01 DOI:10.1109/iwagpr50767.2021.9843147

L. Bossi, P. Falorni, F. Crawford, T. Bechtel, V. Plakhtii, L. Capineri

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Abstract

The characterization of microwave subsurface holographic RADAR sensors is not simple because the investigated medium is generally not homogeneous, and the soil electromagnetic properties change with moisture content. Commonly, holographic radars designed for terrain investigations use sand-box testbeds. To ensure the homogeneity of the medium and a well-defined value of dielectric permittivity and conductivity (attenuation), we designed and fabricated a testbed filled with water. With a solution of Sodium Chloride concentration at room temperature, it is possible to obtain a specific dielectric permittivity and the desired attenuation. In this paper we describe the design process, the fabrication, and a preliminary experiment with distilled water using a plastic candy box as a target. This approach to the fabrication of a RADAR testbed guarantees the repeatability of the measurements reducing the number of uncontrolled variables in laboratory experiments.

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用于全息地下雷达天线性能验证的充水试验台建模、设计和制造

由于所研究的介质一般不均匀，土壤电磁特性随含水量的变化而变化，因此微波地下全息雷达传感器的表征并不简单。通常，为地形调查设计的全息雷达使用沙盒试验台。为了保证介质的均匀性和明确的介电常数和电导率(衰减)值，我们设计并制造了一个充满水的试验台。在室温下使用氯化钠浓度的溶液，可以获得特定的介电常数和所需的衰减。本文介绍了该装置的设计过程、制作过程，并以塑料糖果盒为靶，用蒸馏水进行了初步实验。这种制造雷达试验台的方法保证了测量的可重复性，减少了实验室实验中不受控制变量的数量。

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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2021 11th International Workshop on Advanced Ground Penetrating Radar (IWAGPR)

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