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A High-Efficiency Spectral Element Method Based on CFS-PML for GPR Numerical Simulation and Reverse Time Migration

Xun Wang, Tianxiao Yu, Deshan Feng, Siyuan Ding, Bingchao Li, Yuxin Liu, Feng Zheng

2023IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing19 citationsDOIOpen Access PDF

Abstract

Improving the accuracy and efficiency of the numerical simulation of ground penetrating radar (GPR) becomes a pressing need with the rapidly increased amount of inversion data and the growing demand for migration imaging quality. In this article, we present a numerical spectral element time-domain (SETD) simulation procedure for GPR forward modeling and further apply it to the reverse time migration (RTM) with complex geoelectric models. This approach takes into account the flexibility of the finite element methods and the high precision of the spectral methods. Meanwhile, in this procedure, the complex frequency shifted perfectly matched layer (CFS-PML) is loaded to effectively suppress the echo at the truncated boundary, and the per-element GPU parallel framework used can achieve up to 5.7788 times the efficiency compared with the CPU calculation. The experiments on SETD spatial convergence and CFS-PML optimal parameter selection showed that, under the same degree of freedom, the SETD offered substantially better accuracy compared with the traditional FETD. The experiments on RTM of different profiles with different orders of SETD via a complex geoelectric model verify the universality of the algorithm. The results indicate that the RTM imaging effect has been significantly improved with the increase of SETD order. It fully proves the great potential of efficient and high-precision SETD simulation algorithm in the RTM imaging direction and shows certain guiding significance for underground target structure exploration.

Topics & Concepts

Ground-penetrating radarPerfectly matched layerComputer scienceSeismic migrationFinite element methodAlgorithmComputer simulationInversion (geology)Time domainElectromagneticsComputational scienceRadarElectronic engineeringSimulationGeologyStructural engineeringEngineeringComputer visionGeophysicsTelecommunicationsPaleontologyStructural basinGeophysical Methods and ApplicationsElectromagnetic Simulation and Numerical MethodsMicrowave Imaging and Scattering Analysis
A High-Efficiency Spectral Element Method Based on CFS-PML for GPR Numerical Simulation and Reverse Time Migration | Litcius