土中埋藏物的三维轮廓成形

IF 0.6 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC Advances in Radio Science Pub Date : 2021-12-17 DOI:10.5194/ars-19-173-2021

Christian Siebauer, H. Garbe

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摘要

摘要本文的基本问题是，在爆炸物处理过程中，在地下发现的检测到的异常是否实际上是未引爆的炸弹或非危险的金属废料。本文提出了一种基于钻孔雷达的方法，该方法首先借助空间运行时评估来创建目标的二维轮廓。通过在不同深度重复这一步骤，随后的图形覆盖，被埋物体的3D形状被创建。首先用非均匀土的模拟模型对该方法进行了试验。在第二步，该方法将应用和评估使用现场测量一个真实的对象。结果表明，二维和三维评价都反映了目标的位置和方向。此外，在三维轮廓沿垂直轴有畸变的限制下，可以估计形状和尺寸。这项工作的目的是展示钻孔雷达的应用，利用它可以方便地识别被埋物体。

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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3D Contour Shaping of Buried Objects in Soil

Abstract. The basic question of this paper was, whether a detected anomaly found in the ground during an explosives disposal process is actually a non-detonated bomb or non-dangerous metallic scrap. Based on a borehole radar, an approach is to be presented in which first a 2-dimensional contour of the object is created with the aid of a spatial runtime evaluation. By repeating this step at different depths with subsequent graphic overlay, a 3D shape of the buried object is created. The method is first tested using a simulation model with inhomogeneous soil. In the second step the method will be applied and evaluated using a field measurement of a real object. The results shows that both 2D and 3D evaluations reflect the position and orientation of the object. Furthermore, the shape and the dimensions can be estimated, with the restriction that the 3D contour has distortions along the vertical axis. The aim of this work is to show an application of borehole radar, with which the identification of buried objects should be facilitated.

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