A novel simple to implement technique to accelerate the method of moments applied to surface integral equations of computational electromagnetics is presented. The method is based on the non-uniform grid algorithm and its precision is enhanced by efficient quadrature rules for the accurate computation of near-field based on the cancellation techniques. The method is an attractive alternative to the well-known multilevel fast multipole algorithm (MLFMA). Several numerical case studies will be presented at the conference to demonstrate the efficacy and flexibility of the proposed technique in dealing with complex structure
The fast multipole method is used to solve the electromagnetic scattering from three-dimensional con...
In this paper, we present an accurate method of moments (MoM) solution of the combined field integra...
The electromagnetic (EM) scattering from three-dimensional (3D) conducting bodies has been studied. ...
A novel simple to implement technique to accelerate the method of moments applied to surface integra...
This paper presents a novel simple to implement technique to accelerate the method of moments applie...
The Method of Moments is a numerical technique for solving electromagnetic problems with integral eq...
The multilevel fast multipole algorithm (MLFMA) based on the Nystrm discretization of surface integr...
The purpose of this thesis is the advancement of numerical techniques in computational electromagnet...
In Electromagnetic Compatibility (EMC) problems, computation of electromagnetic near-fields in the v...
Surface integral equations (SIEs) are promising candidates for modeling circuits because they reduc...
Electromagnetic propagation and scattering problems are important in many application areas such as ...
Fast-multipole and precorrected-FFT accelerated iterative methods have substantially improved the ef...
In this paper, we present an accurate method of moments (MoM) solution of the combined-field integra...
The dual basis function proposed by Chen and Wilton in 1990 is used to represent the magnetic curren...
We present the solution of extremely large electromagnetics problems formulated with surface integra...
The fast multipole method is used to solve the electromagnetic scattering from three-dimensional con...
In this paper, we present an accurate method of moments (MoM) solution of the combined field integra...
The electromagnetic (EM) scattering from three-dimensional (3D) conducting bodies has been studied. ...
A novel simple to implement technique to accelerate the method of moments applied to surface integra...
This paper presents a novel simple to implement technique to accelerate the method of moments applie...
The Method of Moments is a numerical technique for solving electromagnetic problems with integral eq...
The multilevel fast multipole algorithm (MLFMA) based on the Nystrm discretization of surface integr...
The purpose of this thesis is the advancement of numerical techniques in computational electromagnet...
In Electromagnetic Compatibility (EMC) problems, computation of electromagnetic near-fields in the v...
Surface integral equations (SIEs) are promising candidates for modeling circuits because they reduc...
Electromagnetic propagation and scattering problems are important in many application areas such as ...
Fast-multipole and precorrected-FFT accelerated iterative methods have substantially improved the ef...
In this paper, we present an accurate method of moments (MoM) solution of the combined-field integra...
The dual basis function proposed by Chen and Wilton in 1990 is used to represent the magnetic curren...
We present the solution of extremely large electromagnetics problems formulated with surface integra...
The fast multipole method is used to solve the electromagnetic scattering from three-dimensional con...
In this paper, we present an accurate method of moments (MoM) solution of the combined field integra...
The electromagnetic (EM) scattering from three-dimensional (3D) conducting bodies has been studied. ...