It USES the fast multipole method (FMM) to accelerate the solution of the integral equations.
它使用快速多极方法(FMM)加速积分方程的解决方案。
The fast multipole method (FMM) was used with the boundary element method (BEM) to predict fractures in large castings.
将快速多极算法(FMM)应用到边界元法(BEM)中,对断裂力学问题进行大规模计算。
The fast multipole method(FMM) is introduced to solve the magnetic vector potential in 3-D electromagnetoquasistatic field.
提出了一种求解任意形状线圈位于平板导体上方时矢量磁位的解析方法。
Again we analyze RCS of the conductor sphere (3d), and some techniques in the application of FMM are presented. So the algorithm has been optimized.
又以导体球(三维问题)为例,用FMM分析并计算了导体球的RCS,并提出了运用FMM中的一系列技巧,对算法进行了优化。
The computation time of the method can be obviously reduced because of the higher computational efficiency of CC and FMM than that of direct summation.
由于循环卷积和FMM的计算效率明显高于直接求和,故整个算法的计算时间明显减少。
A new method of detecting compensating reference current for active power filters by frequency multiplication modulation (FMM) is presented in this paper.
提出了一种电力有源滤波器补偿参考电流的倍频调制检测新方法。
The group even stamps the disks it produces with “FMM,” which stands for Familia Morelia Michoacana, right alongside the original brand of various software makers.
该集团甚至往自己生产的光盘上贴上“FMM”的标签,即代表着米却肯家族的意思,这些标签就跟各种原始软件生产商的商标放到一起。
The group even stamps the disks it produces with "FMM, " which stands for Familia Morelia Michoacana, right alongside the original brand of various software makers.
该集团甚至往自己生产的光盘上贴上“FMM”的标签,即代表着米却肯家族的意思,这些标签就跟各种原始软件生产商的商标放到一起。
The forward-backward methodology is combined with the fast multipole method(FMM) and the iterative physical optics(IPO) to improve convergence and computational efficiency.
详细推导了快速多极子方法结合迭代物理光学法和阻抗边界条件的混合计算公式。
The present paper applies fast multipole method (FMM) and multilevel fast multipole algorithm (MLFMA) based on the higher order moment of method (mom) to solve scattering from complex target.
本文采用基于高阶矩量法的快速多极子方法(FMM)及多层快速多极子方法(MLFMA)计算复杂目标的电磁散射。
Following, based on the above research foundation and aimed at resolving the scattering by the complex target with high efficient solution, extensive study of the FMM and MLFMA has been carried out.
最后,在上述研究基础上,针对高效求解复杂目标电磁散射的问题研究了复杂度分别为和的快速多极子方法以及多层快速多极子方法。
Following, based on the above research foundation and aimed at resolving the scattering by the complex target with high efficient solution, extensive study of the FMM and MLFMA has been carried out.
最后,在上述研究基础上,针对高效求解复杂目标电磁散射的问题研究了复杂度分别为和的快速多极子方法以及多层快速多极子方法。
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