Integration of Elevation Correction with Surface Reflected Wave Removal for Detection of Low Reflective Targets in UAV Mounted GPR Systems

机译：用表面反射波去除升降校正，以检测无人机挂载GPR系统低反射靶

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We present an integration of elevation correction algorithm with Singular Value Decomposition (SVD) based surface reflected wave removal algorithm for ground penetrating radar (GPR) systems positioned above ground with elevation variation. The GPR system and the experimental environment are simulated using the gprMax open-source software. The simulated scenario can be used for GPR mounted on Unmanned Aerial Vehicle (UAV), e.g. drone. The results show excellent reduction of both the effect of terrain with elevation variation and the effect of the surface reflected wave, increasing the probability of object detection, especially when the targets are low-reflective objects. The improved detection capability is tested using Faster-RCNN network, which shows the effectiveness of the method.

机译：我们介绍了基于奇异值分解（SVD）的奇异值分解（SVD）表面反射波去除算法的升降算法与仰卧变化定位在地上的地面穿透雷达（GPR）系统。使用GPRMAX开源软件模拟GPR系统和实验环境。模拟场景可用于安装在无人驾驶飞行器（UAV）上的GPR，例如，无人机。结果表明，地形具有高度变化的效果和表面反射波的效果，提高物体检测概率的效果优异，特别是当目标是低反射物体时。使用更快的RCNN网络测试改进的检测能力，其显示了该方法的有效性。

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《International Conference on Advanced Technologies, Systems and Services in Telecommunications》|2019年|1 v.|共4页
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Venceslav Kafedziski; Sinisha Pecov; Dimitar Tanevski;
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中图分类无线通信;
关键词
Ground penetrating radar; Soil; Surface waves; Object detection; Mathematical model; Drones; Antennas;

机译：地面渗透雷达;土壤;表面波;物体检测;数学模型;无人机;天线;

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4. Integration of Elevation Correction with Surface Reflected Wave Removal for Detection of Low Reflective Targets in UAV Mounted GPR Systems [C] . Venceslav Kafedziski, Sinisha Pecov, Dimitar Tanevski International Conference on Advanced Technologies, Systems and Services in Telecommunications . 2019

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Integration of Elevation Correction with Surface Reflected Wave Removal for Detection of Low Reflective Targets in UAV Mounted GPR Systems

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