Propagation modeling using the Split Step Fourier method: Ground boundary conditions analysis and acceleration by GPU

2014 International Radar Conference Pub Date : 2014-10-01 DOI:10.1109/RADAR.2014.7060311
F. Vincent, Noblet Mathieu, Lahaye Robert, P. Nicolas, B. Christophe
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引用次数: 7

Abstract

Forward propagation above dielectric surfaces is studied using the Split Step Fourier (SSF) resolution technique. The introduction of Fresnel Boundary Conditions (SSF-FBC) and Leontovitch Boundary Conditions (SSF-LBC) is described. The numerical singularity induced by the reflection coefficient at pseudo-Brewster incidence is analyzed, and the DMFT solution for SSF-LBC resolution is retrieved. The limit induced by the Leontovitch assumption is studied on typical grounds. Numerical validations of the proposed method are presented by comparison with the asymptotic formulation. As the SSF is based on an FFT algorithm, the acceleration using a GPU implementation is studied and the numerical time gains are given.
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使用分割步傅立叶方法的传播建模:地面边界条件分析和GPU加速
利用分步傅里叶(SSF)分辨率技术研究了介质表面上的正向传播。介绍了菲涅耳边界条件和列昂托维奇边界条件。分析了伪布鲁斯特入射下反射系数引起的数值奇异性,检索了SSF-LBC分辨率的DMFT解。在典型的基础上研究了由列昂托维奇假设引起的极限。通过与渐近公式的比较,给出了该方法的数值验证。由于SSF是基于FFT算法的,因此研究了GPU的加速实现,并给出了数值时间增益。
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2014 International Radar Conference
2014 International Radar Conference
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