无线电波传播相速度频散介质中SFCW探地雷达天线孔径合成

V. G. Sugak, A. Dubovitsky
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引用次数: 0

摘要

在较大的地表范围内进行地质雷达探测时,解决了天线孔径合成问题,提高了深度水平面的分辨率。孔径合成是利用土壤表面下无线电波传播相速度及其频散的先验未知值进行的。为此,采用迭代方法,改变土壤中的无线电波减速因子和无线电波传播相速度的频率依赖形式。当地下土壤结构非均质性的图像对比度达到最大值时,完成迭代程序。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Antenna Aperture Synthesis for SFCW GPR in a Medium with Frequency Dispersion of Radio-Waves Propagation Phase Velocity
The problem of antenna aperture synthesis has been solved for the georadar probing on a relatively large surface area of the ground to increase the resolution in the horizontal plane in depth. Aperture synthesis is carried out with a priori unknown values of the radio wave propagation phase velocity below the surface of the soil and its frequency dispersion. For this, iterative procedures are used, in which the radio wave deceleration factor in the soil and the form of the frequency dependence of the radio wave propagation phase velocity are changed. Iterative procedures are completed when the image contrast of the heterogeneities of the subsurface soil structure reaches the greatest value.
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