Scalar and vector basis functions for modeling edge and corner singularities associated with electromagnetic fields have been developed and used by various authors. A number of singular divergence-conforming bases on triangular elements have been proposed for the solution of integral equations, while bases of the same kind for quadrilateral elements are less common. The present work aims at illustrating the difficulties, the advantages, the accuracy, and the cost of using such bases in Method of Moments solutions of integral equations
Hierarchical curl- and divergence-conforming vector bases for two- and three-dimensional cells were ...
A number of new hierarchical and singular (scalar and vector) basis functions for field representati...
A set of novel, grid-robust, higher-order vector basis functions for the method of moment (MoM) solu...
Scalar and vector basis functions are developed for modeling corner singularities in electromagnetic...
In the recent past the authors have developed new hierarchical scalar and vector basis functions for...
A new family of hierarchical vector basis functions is proposed that accurately models fields near c...
A new family of hierarchical vector basis functions is proposed that accurately models fields near c...
Singular basis functions are known to improve the accuracy and convergence of numerical solutions wh...
High order scalar and vector basis functions have been developed that permit accurate modeling of si...
This dissertation presents new singular curl- and divergence- conforming vector bases that incorpora...
Scalar and vector basis functions have been developed that permit accurate modeling of singularities...
A new family of hierarchical basis functions is proposed for triangular cells. These functions incor...
The Method of Moments (MoM) is an efficient way of obtaining solutions of integral equations for 2D ...
New hierarchical basis functions are proposed for triangular cells with corner singularities. These ...
Recent approaches to model corner singularities in electromagnetic analysis require a treatment subs...
Hierarchical curl- and divergence-conforming vector bases for two- and three-dimensional cells were ...
A number of new hierarchical and singular (scalar and vector) basis functions for field representati...
A set of novel, grid-robust, higher-order vector basis functions for the method of moment (MoM) solu...
Scalar and vector basis functions are developed for modeling corner singularities in electromagnetic...
In the recent past the authors have developed new hierarchical scalar and vector basis functions for...
A new family of hierarchical vector basis functions is proposed that accurately models fields near c...
A new family of hierarchical vector basis functions is proposed that accurately models fields near c...
Singular basis functions are known to improve the accuracy and convergence of numerical solutions wh...
High order scalar and vector basis functions have been developed that permit accurate modeling of si...
This dissertation presents new singular curl- and divergence- conforming vector bases that incorpora...
Scalar and vector basis functions have been developed that permit accurate modeling of singularities...
A new family of hierarchical basis functions is proposed for triangular cells. These functions incor...
The Method of Moments (MoM) is an efficient way of obtaining solutions of integral equations for 2D ...
New hierarchical basis functions are proposed for triangular cells with corner singularities. These ...
Recent approaches to model corner singularities in electromagnetic analysis require a treatment subs...
Hierarchical curl- and divergence-conforming vector bases for two- and three-dimensional cells were ...
A number of new hierarchical and singular (scalar and vector) basis functions for field representati...
A set of novel, grid-robust, higher-order vector basis functions for the method of moment (MoM) solu...