A hybrid explicit-implicit discontinuous Galerkin spectral-element time-domain algorithm for multi-scale computation

机译：用于多尺度计算的混合显式隐式的不连续的Galerkin谱元谱 - 元素域算法

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In this paper, we propose a hybrid explicit-implicit discontinuous Galerkin spectral-element time-domain (DG-SETD) algorithm for the analysis of multi-scale electromagnetic problems. Usually very small cells and extremely small time step size is needed in multi-scale simulation. However, when using this method, the time step size is no longer constrained by the Courant-Friedrichs-Levy (CFL) condition and the number of unknowns will also be greatly reduced by nonconformal mesh, which can greatly shorten the computation time. The Crank-Nicholson (CN) difference scheme is employed for the small cells with UMFPACK solver and leapfrog difference is for the large cells with direct solution procedure. Consequently, a relatively large time step size can be adopted. Finally, numerical results demonstrate the accuracy and effectiveness of the proposed method.

机译：在本文中，我们提出了一种混合明确隐式的不连续的Galerkin谱 - 元素时间域（DG-SETD）算法，用于分析多尺度电磁问题。通常在多尺度仿真中需要非常小的细胞和极小的时间步长。然而，当使用这种方法时，时间步长度不再受到扶手 - Friedrichs-Levy（CFL）条件的限制，并且不可确定的网格也将大大降低未知数的数量，这可以大大缩短计算时间。曲柄 - 尼科尔森（CN）差分方案用于带UMFPACK求解器的小型电池，越跨度差异是具有直接解决方案程序的大型电池。因此，可以采用相对较大的时间步长。最后，数值结果证明了所提出的方法的准确性和有效性。

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《IEEE International Conference on Ubiquitous Wireless Broadband》|2016年|830p|共3页
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A. Q. Cheng; D. Z. Ding; R. S. Chen;
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中图分类 TN915.142-53;
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Time-domain analysis; Finite element analysis; Method of moments; Cavity resonators; Maxwell equations; Algorithm design and analysis;

机译：时域分析;有限元分析;矩的方法;腔谐振器;麦克斯韦方程;算法设计和分析;

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4. A hybrid explicit-implicit discontinuous Galerkin spectral-element time-domain algorithm for multi-scale computation [C] . A. Q. Cheng, D. Z. Ding, R. S. Chen 2016 IEEE International Conference on Ubiquitous Wireless Broadband . 2016

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A hybrid explicit-implicit discontinuous Galerkin spectral-element time-domain algorithm for multi-scale computation

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