The Finite Element Method (FEM) and Method of Moments (MoM) are popular numerical methods for solving complex problems encountered in almost any field of engineering. The structure to be studied is divided into small cells (2D or 3D) and the relevant equations can be numerically solved. The modes of the structure are typically obtained by solving a generalized eigenvalue equation (FEM) or performing a matrix inversion (MoM); scattering problems formulated in term of integral equations are typically solved with MoM. For problems with smooth surfaces or other regular features, high order finite-element techniques based on the use of (hierarchical) curl-conforming for FEM or divergence-conforming vector bases for MoM successfully improve a...
A set of novel, grid-robust, higher order vector basis functions is proposed for the method-of-momen...
The 3D Finite Elements Method (FEM) is an extensively accepted tool for the analysis and design of ...
Scalar and vector basis functions for modeling edge and corner singularities associated with electro...
The Method of Moments (MoM) is an efficient way of obtaining solutions of integral equations for 2D ...
Recent approaches to model corner singularities in electromagnetic analysis require a treatment subs...
This paper describes the fundamental properties of new singular vector bases that incorporate the ed...
This paper presents new singular curl- and divergence- conforming vector bases that incorporate the ...
This paper presents strategies and schemes to implement higher-order two dimensional singular elemen...
A procedure to obtain in a unified and consistent manner singular vector bases complete to arbitrari...
This paper reviews very-highorder techniques for analysis of electromagnetic problems developed in o...
We present new subsectional, singular divergence conforming vector bases that incorporate the edge c...
A novel higher order large-domain hybrid computational electromagnetic technique based on the finite...
Higher Order Techniques in Computational Electromagnetics explains "high-order" techniques that can ...
The use of singular basis functions enhances the convergence of method-of-moments (MoM) solutions fo...
Summary form only given. For problems with smooth surfaces or other regular features, high order hie...
A set of novel, grid-robust, higher order vector basis functions is proposed for the method-of-momen...
The 3D Finite Elements Method (FEM) is an extensively accepted tool for the analysis and design of ...
Scalar and vector basis functions for modeling edge and corner singularities associated with electro...
The Method of Moments (MoM) is an efficient way of obtaining solutions of integral equations for 2D ...
Recent approaches to model corner singularities in electromagnetic analysis require a treatment subs...
This paper describes the fundamental properties of new singular vector bases that incorporate the ed...
This paper presents new singular curl- and divergence- conforming vector bases that incorporate the ...
This paper presents strategies and schemes to implement higher-order two dimensional singular elemen...
A procedure to obtain in a unified and consistent manner singular vector bases complete to arbitrari...
This paper reviews very-highorder techniques for analysis of electromagnetic problems developed in o...
We present new subsectional, singular divergence conforming vector bases that incorporate the edge c...
A novel higher order large-domain hybrid computational electromagnetic technique based on the finite...
Higher Order Techniques in Computational Electromagnetics explains "high-order" techniques that can ...
The use of singular basis functions enhances the convergence of method-of-moments (MoM) solutions fo...
Summary form only given. For problems with smooth surfaces or other regular features, high order hie...
A set of novel, grid-robust, higher order vector basis functions is proposed for the method-of-momen...
The 3D Finite Elements Method (FEM) is an extensively accepted tool for the analysis and design of ...
Scalar and vector basis functions for modeling edge and corner singularities associated with electro...