New trends in finite element methods

New Trends in Computational Electromagnetics Pub Date : 2019-01-01 DOI:10.1049/sbew533e_ch7
B. Notaroš, Su Yan
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Abstract

This chapter addresses both the "old" body of knowledge and the "new" trends of research and practice in FEM as applied to electromagnetics. It presents the general mathematical background and numerical components of FEM and discusses FEM formulations, discretizations, and solution procedures, mostly in the context of the higher order FEM computation. This includes the generation of curvilinear elements for higher order modeling of geometry, implementation of polynomial vector basis functions for higher order modeling of fields within the elements, and Galerkin testing method for discretizing the wave equations. The chapter focuses on the higher order FEM as the most general and versatile approach, where the low -order modeling is naturally included in the higher order FEM paradigm.
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有限元方法的新趋势
本章讨论了电磁学中应用有限元法的“旧”知识体系和研究与实践的“新”趋势。它介绍了有限元的一般数学背景和数值组成,并讨论了有限元的公式、离散化和求解过程,主要是在高阶有限元计算的背景下进行的。这包括生成用于高阶几何建模的曲线元素,实现用于高阶几何建模的多项式向量基函数,以及用于离散波动方程的伽辽金测试方法。本章重点介绍了高阶有限元作为最通用和通用的方法,其中低阶建模自然包含在高阶有限元范式中。
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New Trends in Computational Electromagnetics
New Trends in Computational Electromagnetics
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Back Matter New trends in geometric modeling and discretization for integral equations New trends in algebraic preconditioning New trends in uncertainty quantification for large-scale electromagnetic analysis: from tensor product cubature rules to spectral quantic tensor-train approximation New trends in frequency-domain volume integral equations
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