Velocity analysis of a lateral wave

Tsogtbaatar Amarsaikhan, Motoyuki Sato
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引用次数: 0

Abstract

In practice, the reflected EM signal cannot be clearly observed in GPR data due to the high water content and other reasons. However, the antenna coupling signal through the ground interface is dominated in all the GPR measurements. This direct coupling signal that travels through the ground interface is called a lateral wave. The properties of the lateral wave directly depend on the subsurface properties, especially electrical parameters. We have numerically analyzed a lateral wave and its velocity. Subsequently, the relationship between lateral wave and dielectric permittivity was determined by polynomial regression. Analytically, it is challenging to analyze a lateral wave due to the parameters that can influence wave propagation. Antenna characteristics, surface roughness, etc need to be considered. Numerically, we designed a GPR system with a subsurface layer and observed a lateral wave. This numerical analysis can give a chance to use a lateral wave for near-surface soil water content. This analysis gives a more precise estimation of surface water content. Moreover, we analyze the antenna height effect that influences radar signals. We numerically observed that the GPR signal is highly affected by antenna height. The antenna height effect depended on the wavelength of the applied electromagnetic wave. By adjusting the antenna height, the unobservable GPR signal can be clearly detected.
横向波的速度分析
在实践中,由于高含水量和其他原因,在GPR数据中不能清楚地观察到反射的EM信号。然而,在所有的GPR测量中,通过地面接口的天线耦合信号占主导地位。这种通过地面界面传播的直接耦合信号被称为侧向波。横波的性质直接取决于地下性质,尤其是电参数。我们对一个横波及其速度进行了数值分析。随后,通过多项式回归确定了横波与介电常数之间的关系。从分析角度来看,由于可以影响波传播的参数,分析横波是一项具有挑战性的工作。需要考虑天线特性、表面粗糙度等。在数值上,我们设计了一个具有地下层的探地雷达系统,并观测到了一个横波。这种数值分析可以为近地表土壤含水量使用横波提供机会。这种分析可以更精确地估计地表水含量。此外,我们还分析了天线高度效应对雷达信号的影响。我们从数值上观察到,探地雷达信号受天线高度的影响很大。天线高度效应取决于所施加的电磁波的波长。通过调整天线高度,可以清楚地检测到不可观测的探地雷达信号。
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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来源期刊
CiteScore
0.70
自引率
0.00%
发文量
4
审稿时长
8 weeks
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