Preconditioning methods for eddy-current optimally controlled time-harmonic electromagnetic problems

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
O. Axelsson, D. Lukáš
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引用次数: 32

Abstract

Abstract Time-harmonic problems arise in many important applications, such as eddy current optimally controlled electromagnetic problems. Eddy current modelling can also be used in non-destructive testings of conducting materials. Using a truncated Fourier series to approximate the solution, for linear problems the equation for different frequencies separate, so it suffices to study solution methods for the problem for a single frequency. The arising discretized system takes a two-by-two or four-by-four block matrix form. Since the problems are in general three-dimensional in space and hence of very large scale, one must use an iterative solution method. It is then crucial to construct efficient preconditioners. It is shown that an earlier used preconditioner for optimal control problems is applicable here also and leads to very tight eigenvalue bounds and hence very fast convergence such as for a Krylov subspace iterative solution method. A comparison is done with an earlier used block diagonal preconditioner.
涡流最优控制时谐电磁问题的预处理方法
在许多重要的应用中都会出现时谐波问题,例如涡流最优控制的电磁问题。涡流模型也可用于导电材料的无损检测。利用截断傅立叶级数近似解,对于线性问题,不同频率的方程是分离的,因此研究单频问题的解方法就足够了。产生的离散系统采用二乘二或四乘四的块矩阵形式。由于问题在空间上一般是三维的,因此规模非常大,因此必须使用迭代求解方法。因此,构建高效的预调节器是至关重要的。结果表明,先前用于最优控制问题的预条件也适用于此,并导致非常紧的特征值边界,因此收敛速度非常快,例如对于Krylov子空间迭代解方法。与先前使用的块对角前置条件进行比较。
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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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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