Multi-level Power Series Solution for Large Surface and Volume Electric Field Integral Equation

IF 0.6 4区 计算机科学 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC
Y. K. Negi, N. Balakrishnan, S. M. Rao
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引用次数: 0

Abstract

In this paper, we propose a new multi-level power series solution method for solving a large surface and volume electric field integral equation-based H-Matrix. The proposed solution method converges in a fixed number of iterations and is solved at each level of the H-Matrix computation. The solution method avoids the computation of a full matrix, as it can be solved independently at each level, starting from the leaf level. Solution at each level can be used as the final solution, thus saving the matrix computation time for full H-Matrix. The paper shows that the leaf level matrix computation and solution with power series gives as accurate results as the full H-Matrix iterative solver method. The method results in considerable savings time and memory savings compared to the H-Matrix iterative solver. Further, the proposed method retains the O(NlogN) solution complexity.
大表面大体积电场积分方程的多级幂级数解
本文提出了一种求解大表面和体积电场积分方程h矩阵的多层次幂级数解的新方法。所提出的求解方法收敛于固定的迭代次数,并在h矩阵计算的每个层次上求解。求解方法避免了整个矩阵的计算,因为它可以在每一级独立求解,从叶级开始。每一层的解都可以作为最终解,从而节省了全h矩阵的矩阵计算时间。本文表明,叶级矩阵的幂级数计算和求解结果与全h矩阵迭代求解方法一样精确。与h矩阵迭代求解器相比,该方法节省了大量的时间和内存。此外,该方法保持了O(NlogN)的解复杂度。
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来源期刊
CiteScore
1.60
自引率
28.60%
发文量
75
审稿时长
9 months
期刊介绍: The ACES Journal is devoted to the exchange of information in computational electromagnetics, to the advancement of the state of the art, and to the promotion of related technical activities. A primary objective of the information exchange is the elimination of the need to "re-invent the wheel" to solve a previously solved computational problem in electrical engineering, physics, or related fields of study. The ACES Journal welcomes original, previously unpublished papers, relating to applied computational electromagnetics. All papers are refereed. A unique feature of ACES Journal is the publication of unsuccessful efforts in applied computational electromagnetics. Publication of such material provides a means to discuss problem areas in electromagnetic modeling. Manuscripts representing an unsuccessful application or negative result in computational electromagnetics is considered for publication only if a reasonable expectation of success (and a reasonable effort) are reflected. The technical activities promoted by this publication include code validation, performance analysis, and input/output standardization; code or technique optimization and error minimization; innovations in solution technique or in data input/output; identification of new applications for electromagnetics modeling codes and techniques; integration of computational electromagnetics techniques with new computer architectures; and correlation of computational parameters with physical mechanisms.
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