FirstArrival Traveltimes Inversion Based on Minimal Number of Parameters in shallow crosswell GPR Tomography

2007 4th International Workshop on, Advanced Ground Penetrating Radar Pub Date : 2007-06-27 DOI:10.1109/AGPR.2007.386539

M. Mangue, H. Perroud, D. Rousset

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Abstract

Ground-penetrating radar is often used for the characterization of subsurface properties. In this paper, we present a cross-well tomographic inversion algorithm of first-arrival traveltimes which uses only a limited number of parameters. This methodology has been developed for media with significant contrast of electrical permittivity, for example for near-surface sedimentary media. The aim is to determine the distribution of the electromagnetic wave velocity between two wells. We consider that the media can be decomposed into several homogeneous layers, with horizontal or gently dipping interfaces. It is described by a vector of parameters which includes one velocity and one or two thicknesses per layer. This methodology allows to obtain a 1D velocity profile of the medium between the two wells. This inversion scheme was tested on synthetic data. The head waves which appear due to the velocity contrasts are taken account in the inversion. Our inversion methodology was also tested on real data and the obtained velocity models were compared to those obtained using surface acquisition data only. Our results show that the velocity profiles issued from cross-well and surface acquisition appear to be very similar.

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浅井间探地雷达层析成像中基于最小参数数的首个星对手旅行时反演

探地雷达常用于表征地下性质。在本文中，我们提出了一种仅使用有限数量参数的首次到达旅行时间的井间层析反演算法。该方法适用于介电常数反差较大的介质，例如近地表沉积介质。目的是确定两井之间电磁波速度的分布。我们认为介质可以分解成几个均匀的层，具有水平或平缓倾斜的界面。它由一个参数向量来描述，其中包括每层一个速度和一个或两个厚度。该方法可以获得两口井之间介质的一维速度剖面。该反演方案在综合数据上进行了验证。在反演中考虑了由于速度对比而出现的头波。我们的反演方法也在实际数据上进行了测试，并与仅使用地面采集数据获得的速度模型进行了比较。结果表明，井间和地面采集的速度剖面非常相似。

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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2007 4th International Workshop on, Advanced Ground Penetrating Radar

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