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引用次数: 1
摘要
本文研究了天线配置和粗糙地面对用于杀伤人员地雷探测的多站手持探地雷达系统性能的影响。这项工作是对[1]中提出的结论的后续研究,其中包括与手持式GPR中典型的双基地系统相比,通过全波反演(FWI)实现多接收机增强成像的事实。本文旨在解决上述工作中概述的未来工作的几个方面。具体而言,该研究旨在定量表征不同天线配置和粗糙地面对用于基于FWI的地下成像排雷作业的小型多站GPR系统性能的影响。利用三维电磁软件CST STUDIO SUITE对探雷雷达系统进行建模和仿真,并基于先验FWI假设,采用奇异值分解(SVD)分析估计参数灵敏度。
Performance measurements for full wave inversion (FWI) based multistatic handheld ground penetrating radar (GPR) for landmine detection
This paper reports the results of a study to investigate the impact of antenna configuration and rough ground surface on the performance of multistatic handheld ground penetrating radar (GPR) systems for anti-personnel (AP) landmine detection. The work is a follow on to the conclusions presented in [1] which include the fact that enhanced imaging through full wave inversion (FWI) is achieved with multiple receivers in comparison to typical bistatic systems in handheld GPR. This paper seeks to address a couple of aspects of future work outlined in the aforementioned work. Specifically, the study aims to quantitatively characterise the effect of different antenna configurations and rough ground surface on the performance of small multistatic GPR systems used for FWI based subsurface imaging for demining operations. The 3D electromagnetic (EM) software CST STUDIO SUITE is used to model and simulate the GPR system and singular value decomposition (SVD) analysis is used to estimate parameter sensitivity based on the assumption of prior FWI.
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