Investigation of Corner Singularity in Conformal FDTD Structured Mesh Generation Based on Ray Tracing

X. Bo, Jian Feng Zhang, T. Cui
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引用次数: 1

Abstract

Corner singularity in this paper for finite-difference time-domain (FDTD) method indicates the incorrect conformal area computed from the intersection information by ray tracing for tangential situation. Tangential situation originates from a mesh line aligning on an aligned plane, which leads to the fuzzification of intersection length along Yee grid edge. The intersection position of two perpendicular aligned planes or an aligned plane with arbitrary plane is the position of possible corner singularity, from which the incorrect computed conformal area may result. A universal scheme to solve the corner singularity problem is proposed. By utilizing the in or out information normal to the tangential plane, as well as cell position relation relative to the tangential plane, we can determine whether or not to modify the length of the tangential side of Yee cell for computing the conformal area. A simple numerical example of a hollow rectangular waveguide shows the necessity for handling corner singularity.
基于光线追踪的保形FDTD结构网格生成中的角点奇异性研究
本文的时域有限差分法(FDTD)的角点奇异性是指光线追踪法在切向情况下,根据相交信息计算出的保形面积不正确。切向情况源于一条网格线对准一个对齐平面,导致沿Yee网格边缘的相交长度模糊化。两个垂直对齐平面的交点位置或一个对齐平面与任意平面的交点位置是可能出现角点奇点的位置,由此可能导致计算出的保角面积不正确。提出了一种求解角点奇异问题的通用方案。利用法向切平面的in或out信息,以及细胞相对于切平面的位置关系,我们可以决定是否修改Yee细胞切向边的长度来计算保形面积。一个简单的空心矩形波导的数值例子说明了处理角点奇点的必要性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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