正演模拟与偏移处理的结合,为今后利用超宽带探地雷达进行地下目标探测及识别打下了良好的理论基础。
Through the combination of forward modeling and migration, it has laid a good foundation for target identification and geological interpretation with UWB-GPR in the future.
可以直接给出探测目标处有无地下水活动的情况。
It can give information of whether there is or not underground water in detection project directly.
本文描述了纳秒电磁脉冲在探测地下目标中的基本方案;研制了一种高质量行波天线。
A basic scheme for detecting subsurface targets with em pulse of nanoseconds and an especially developed travelling-wave antenna of high quality are described.
随着电磁波应用在现代科技中的飞速发展,电磁探测地下目标成为电磁波应用的一个重要领域。
With the development of electromagnetic applications in modern science and technology, electromagnetic wave surveying underground targets become an important area of application.
目标定位是雷达需要完成的主要功能之一,提出了机载探测时的地下目标定位方法-多点测量方法。
Objects orientation method of underground objects in airborne radar is proposed, which is called multi-position measurement method.
超宽带合成孔径雷达(UWB SAR)为了探测隐藏在树林中或埋于地下的目标,通常工作在低信杂比的环境中。
UWB SAR works usually in low Signal-to-Clutter Ratio (SCR) conditions in order to detect targets hidden in forest or buried in ground.
超宽带合成孔径雷达(UWB SAR)为了探测隐藏在树林中或埋于地下的目标,通常工作在低信杂比的环境中。
UWB SAR works usually in low Signal-to-Clutter Ratio (SCR) conditions in order to detect targets hidden in forest or buried in ground.
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