Airborne GPR surveys via tomographic imaging: An analysis of the reconstruction capabilities

2012 14th International Conference on Ground Penetrating Radar (GPR) Pub Date : 2012-06-04 DOI:10.1109/ICGPR.2012.6254880

I. Catapano, L. Crocco, F. Soldovieri, R. Lanari, G. Alberti, D. Adirosi, C. Facchinetti, F. Longo, R. Formaro, R. Persico

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引用次数: 3

Abstract

GPR systems installed on helicopters or spotter planes represent effective monitoring tools to cover surface and underground characterization of wide areas. In this respect, the paper discusses the on field reconstruction capabilities resulting from the joint exploitation of a novel sounder system and an advanced data processing approach. The sounder system was built by CORISTA in collaboration with the Italian Space Agency, which promoted and founded the project. It is a pulsed radar working at 163 MHz and transmits a 10 MHz linearly frequency modulated signal (chirp) by using DDS (Direct Digital Synthesizer) technique. The transmitted peak power is about 200W over a 3μsec pulse length. The system exploits a log periodic antenna with four elements, GPS and an INS are used for storing position and attitude information. The data processing is faced by means of a microwave tomographic reconstruction approach, which is based on a simplified scattering model. In particular the Born approximation is adopted to formulate the imaging as a linear inverse scattering problem. The effectiveness of the system is shown by means of the tomographic images corresponding to the first trial surveys made with the sounder installed on a helicopter of the Italian Air Force.

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通过层析成像的机载GPR测量:重建能力的分析

安装在直升机或侦察机上的探地雷达系统是有效的监测工具，可以覆盖地面和地下广泛区域的特征。在这方面，本文讨论了一种新的测深系统和先进的数据处理方法的联合开发所带来的现场重建能力。该探测系统是由CORISTA与意大利空间局合作建造的，意大利空间局推动并创立了该项目。它是一种工作频率为163mhz的脉冲雷达，通过DDS(直接数字合成器)技术传输10mhz的线性调频信号(chirp)。脉冲长度为3μsec，传输峰值功率约为200W。该系统采用四元对数周期天线，GPS和INS用于存储位置和姿态信息。数据处理采用基于简化散射模型的微波层析重建方法。特别地，采用玻恩近似将成像表述为线性逆散射问题。该系统的有效性通过安装在意大利空军一架直升机上的测深仪进行的第一次试验测量所对应的层析成像图像来证明。

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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2012 14th International Conference on Ground Penetrating Radar (GPR)

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