An advanced numerical imaging procedure for GPR shallow surveys

2015 8th International Workshop on Advanced Ground Penetrating Radar (IWAGPR) Pub Date : 2015-07-07 DOI:10.1109/IWAGPR.2015.7292622

D. Comite, A. Galli, I. Catapano, F. Soldovieri, E. Pettinelli

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Abstract

The advances achievable in terms of reconstruction capabilities offered by an ad-hoc imaging procedure capable of accounting for the actual radiation features of a Ground Penetrating Radar (GPR) have been analyzed in this paper. The study is carried out by using a full-wave simulator, capable to reproduce the characteristics of the antenna system as well as the signals used for the actual illumination. This numerical analysis enables us to obtain an accurate determination of both the incident and the backscattered electromagnetic fields in the investigated scenarios for the application to a microwave tomographic approach. It is thus possible to derive indications about the variations in terms of reconstruction capabilities that are expected when a directive antenna illuminates a shallow buried target, whose dimensions are comparable with the probing wavelength. Numerical examples for reference cases are presented and discussed in order to assess how imaging is affected by the antenna model used in the implementation of the tomographic approach.

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探地雷达浅层测量的先进数值成像程序

本文分析了一种能够解释探地雷达(GPR)实际辐射特征的特别成像程序所提供的重建能力方面所取得的进展。该研究是通过使用全波模拟器进行的，该模拟器能够再现天线系统的特性以及用于实际照明的信号。这种数值分析使我们能够准确地确定所研究场景中的入射和后向散射电磁场，以便应用于微波层析方法。因此，当指示天线照射一个尺寸与探测波长相当的浅埋目标时，就有可能得出重建能力方面的变化迹象。为了评估在层析成像方法中使用的天线模型对成像的影响，给出并讨论了参考案例的数值示例。

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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2015 8th International Workshop on Advanced Ground Penetrating Radar (IWAGPR)

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