A novel higher order large-domain hybrid computational electromagnetic technique based on the finite element method (FEM) and method of moments (MoM) is proposed for three-dimensional analysis of antennas and scatterers in the frequency domain. The geometry of the structure is modeled using generalized curved parametric hexahedral and quadrilateral elements of arbitrary geometrical orders. The fields and currents on elements are modeled using curl- and divergence-conforming hierarchical polynomial vector basis functions of arbitrary approximation orders, and the Galerkin method is used for testing. The elements can be as large as about two wavelengths in each dimension. As multiple MoM objects are possible in a global exterior region, the M...
A novel entire-domain finite element technique based on curvilinear hexahedral geometrical modeling ...
Electromagnetic compatibility (EMC) issues are becoming increasingly important for the automotive in...
This dissertation discusses three topics relevant to the improvement of hybrid numerical electromagn...
A novel higher order large-domain hybrid computational electromagnetic technique based on the finite...
Hybrid FEM/MoM methods combine the finite element method (FEM) and the method of moments (MoM) to mo...
This paper reviews very-highorder techniques for analysis of electromagnetic problems developed in o...
Abstract: Higher-order, large-domain electromagnetic simulations are presented based on the finite e...
Abstract: Efficient numerical-asymptotic electromagnetic simulations of electrically large structure...
A hybrid formulation is presented, which combines the method of moments (MOM) with the edge-based ve...
A hybrid finite element method/method of moments (FEM/MoM) technique is used to analyze the performa...
The Method of Moments (MoM) is deeply described and used for the analysis of electromagnetic (EM) ra...
An innovative procedure is presented that allows the method of moments (MoM) analysis of large and c...
This paper presents a novel computational electromagnetics (CEM) technique, which hybridizes the per...
The Finite Element Method (FEM) and Method of Moments (MoM) are popular numerical methods for solvin...
Abstract—A numerical method is presented for the analysis and design of a wide variety of electromag...
A novel entire-domain finite element technique based on curvilinear hexahedral geometrical modeling ...
Electromagnetic compatibility (EMC) issues are becoming increasingly important for the automotive in...
This dissertation discusses three topics relevant to the improvement of hybrid numerical electromagn...
A novel higher order large-domain hybrid computational electromagnetic technique based on the finite...
Hybrid FEM/MoM methods combine the finite element method (FEM) and the method of moments (MoM) to mo...
This paper reviews very-highorder techniques for analysis of electromagnetic problems developed in o...
Abstract: Higher-order, large-domain electromagnetic simulations are presented based on the finite e...
Abstract: Efficient numerical-asymptotic electromagnetic simulations of electrically large structure...
A hybrid formulation is presented, which combines the method of moments (MOM) with the edge-based ve...
A hybrid finite element method/method of moments (FEM/MoM) technique is used to analyze the performa...
The Method of Moments (MoM) is deeply described and used for the analysis of electromagnetic (EM) ra...
An innovative procedure is presented that allows the method of moments (MoM) analysis of large and c...
This paper presents a novel computational electromagnetics (CEM) technique, which hybridizes the per...
The Finite Element Method (FEM) and Method of Moments (MoM) are popular numerical methods for solvin...
Abstract—A numerical method is presented for the analysis and design of a wide variety of electromag...
A novel entire-domain finite element technique based on curvilinear hexahedral geometrical modeling ...
Electromagnetic compatibility (EMC) issues are becoming increasingly important for the automotive in...
This dissertation discusses three topics relevant to the improvement of hybrid numerical electromagn...