We present new subsectional, singular divergence conforming vector bases that incorporate the edge conditions for conducting wedges. The bases are of additive kind because obtained by incrementing the regular polynomial vector bases with other subsectional basis sets that model the singular behavior of the unknown vector field in the wedge neighborhood. Singular bases of this kind, complete to arbitrarily high order, are described in a unified and consistent manner for curved quadrilateral and triangular elements. The higher order basis functions are obtained as the product of lowest order functions and Silvester-Lagrange interpolatory polynomials with specially arranged arrays of interpolation points. The completeness properties are discus...
Scattering targets are often made by complex structures constituted by thin metallic plates as wings...
The use of singular basis functions enhances the convergence of method-of-moments (MoM) solutions fo...
Higher-order basis functions are widely used to model currents and fields in numerical simulations o...
This paper presents new singular curl- and divergence- conforming vector bases that incorporate the ...
This dissertation presents new singular curl- and divergence- conforming vector bases that incorpora...
This paper describes the fundamental properties of new singular vector bases that incorporate the ed...
A procedure to obtain in a unified and consistent manner singular vector bases complete to arbitrari...
The Finite Element Method (FEM) and Method of Moments (MoM) are popular numerical methods for solvin...
The Method of Moments (MoM) is an efficient way of obtaining solutions of integral equations for 2D ...
Scalar and vector basis functions for modeling edge and corner singularities associated with electro...
Hierarchical curl- and divergence-conforming vector bases for two- and three-dimensional cells were ...
Complex scattering targets contain metallic structures with junctions and sharp edges that require a...
This paper provides a brief review of the most recent advances in computational electromagnetics reg...
This paper presents new techniques to compute with an extremely high accuracy the moment integrals o...
Recent approaches to model corner singularities in electromagnetic analysis require a treatment subs...
Scattering targets are often made by complex structures constituted by thin metallic plates as wings...
The use of singular basis functions enhances the convergence of method-of-moments (MoM) solutions fo...
Higher-order basis functions are widely used to model currents and fields in numerical simulations o...
This paper presents new singular curl- and divergence- conforming vector bases that incorporate the ...
This dissertation presents new singular curl- and divergence- conforming vector bases that incorpora...
This paper describes the fundamental properties of new singular vector bases that incorporate the ed...
A procedure to obtain in a unified and consistent manner singular vector bases complete to arbitrari...
The Finite Element Method (FEM) and Method of Moments (MoM) are popular numerical methods for solvin...
The Method of Moments (MoM) is an efficient way of obtaining solutions of integral equations for 2D ...
Scalar and vector basis functions for modeling edge and corner singularities associated with electro...
Hierarchical curl- and divergence-conforming vector bases for two- and three-dimensional cells were ...
Complex scattering targets contain metallic structures with junctions and sharp edges that require a...
This paper provides a brief review of the most recent advances in computational electromagnetics reg...
This paper presents new techniques to compute with an extremely high accuracy the moment integrals o...
Recent approaches to model corner singularities in electromagnetic analysis require a treatment subs...
Scattering targets are often made by complex structures constituted by thin metallic plates as wings...
The use of singular basis functions enhances the convergence of method-of-moments (MoM) solutions fo...
Higher-order basis functions are widely used to model currents and fields in numerical simulations o...