极化钻孔雷达在地下结构表征中的应用

International Conference on Ground Penetrating Radar Pub Date : 2002-04-15 DOI:10.1117/12.462275

Motoyuki Sato, T. Abe, Hui Zhou, J. Ra

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引用次数: 3

摘要

2000年在韩国进行了极化钻孔雷达实验。使用了两个相距20米的钻孔。主岩为花岗岩。空腔位于约80m深度。获取单眼和井眼雷达剖面。我们可以在原始数据中清楚地探测到一个充满空气的地下空洞。他们已经证明，交叉孔信号显示出由充满空气的空腔散射引起的“双倾角”衰减。虽然这是一种简单的技术，但我们发现它适用于地下异常的检测。然后对两钻孔间的衰减进行了验证，证明了利用射线探测技术可以探测到异常带。为了获得井眼间的垂直二维图像，我们开发了一种逆时偏移技术。在这个分析中，我们可以假设两个水平层具有不同的速度，并且我们可以对空腔进行成像。通过这些信号解释，可以清楚地确定空腔的位置。

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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Polarimetric borehole radar application for characterizing subsurface structure

Polarimetric borehole radar experiment was carried out in 2000 in Korea. Two boreholes separated by 20m were used. The host rock is granite. The cavity is located at about 80m depth. Single-hole and cross-hole radar profiles were acquired. We could clearly detect a subsurface cavity filled with air in the raw data. They have shown that cross-hole signal shows "double-dip" attenuation caused by scattering from an air-filled cavity. Although it is a simple technique, we found that it is suitable for detection of subsurface anomaly. Then we checked the attenuation between two boreholes, and showed that we can detect anomalous zone by a ray-based technique. In order to have vertical 2-D image between the boreholes, we developed a reverse time migration technique. In this analysis, we could assume two horizontal layers having different velocities, and we could image the cavity. The location of the cavity could clearly be determined by these signal interpretation.

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International Conference on Ground Penetrating Radar

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