摘要
为了在资源有限的条件下快速准确地分析电大尺寸目标的电磁散射特性,给出了一种并行非重叠非共形的基于积分方程的区域分解方法.在子区域内部以及子区域间耦合的计算采用并行多层快速多极子算法进行加速.针对多层快速多极子的八叉树结构,用改进的平面波自适应划分策略提高了并行效率.子区域间的耦合使用场迭代的方式计算,避免了存储互阻抗矩阵,进一步降低了内存需求.数值仿真实例表明,该方法可以高效地解决上千波长目标的散射问题.
In order to solve the scattering characteristics of an electrically large object in the condition of limited resources fast and accurately, a parallel nonoverlapping non conformal domain decomposition method based on integral equations is proposed. The parallel multilevel fast multipolc algorithm is used to accelerate the calculation of the interior and the coupling of sub domains, and the adaptive direction partitioning scheme is applied to improve the parallel efficiency according to its oct tree structure. The coupling between different sub domains is calculated in the manner of near field to avoid the storage of the mutual impedance and the memory requirement is further reduced. Numerical results prove that the proposed parallel domain decomposition method can efficiently solve the scattering problem of one thousand wavelengths.
作者
苏秦
顾宗静
林中朝
赵勋旺
张玉
SUQin;GU Zongjing;LIN Zhongchao;ZHAO Xunwang;ZHANG Yu(Science and Technology on Antennas and Microwave Lab.,Xidian Univ.,Xi'an 710071,China)
出处
《西安电子科技大学学报》
EI
CAS
CSCD
北大核心
2018年第6期7-13,共7页
Journal of Xidian University
基金
中国博士后科学基金资助项目(2017M613068)
国家重点研发计划资助项目(2017YFB0202102
2016YFE0121600)
关键词
区域分解
并行算法
多层快速多极子
电大尺寸
散射
domain decomposition methods
parallel algorithms
multilevel fast multipole algorithm
electrically large
scattering
