Title :
Robust and GPU-accelerated IPO to improve high frequency EM scattering from large scale radar scene simulation
Author :
Pajot, Anthony ; Douchin, Nicolas ; Mametsa, Henri-Jose
Author_Institution :
Oktal-SE, Toulouse, France
Abstract :
Tools for electromagnetic simulation make EM computations down to millimeter wavelength possible from large complex targets and their environments. In this paper, we present how we add localized support for N-OP, most useful for cavities and other complex objects subject to multiple reflections, to our shooting-and-bouncing-ray SE-RAY-EM software. This extension is made with the Iterative Physical Optics (IPO) method, which we improve to make it suitable for use in intensive EM simulation of large scale scenes with localized N-OP bounces accuracy. As we present, this requires a generalization in materials, numerical robustness, computational efficiency and a more precise hybridization method than existing work.
Keywords :
electromagnetic wave scattering; graphics processing units; iterative methods; physical optics; radar computing; GPU-accelerated IPO method; computational efficiency; electromagnetic simulation; high frequency EM scattering; hybridization method; iterative physical optics method; localized N-OP bounce accuracy; numerical robustness; radar scene simulation; shooting-and-bouncing-ray SE-RAY-EM software; Cavity resonators; Current distribution; Dielectrics; Equations; Graphics processing units; Mathematical model; Method of moments;
Conference_Titel :
Radar Conference (Radar), 2014 International
DOI :
10.1109/RADAR.2014.7060312
