Three-dimensional (3-D) full-wave electromagnetic simulation using method of moments (MoM) under the framework of fast solver algorithms like fast multipole method (FMM) is often bottlenecked by the speed of convergence of the Krylov-subspace-based iterative process. This is primarily because the electric field integral equation (EFIE) matrix, even with cutting-edge preconditioning techniques, often exhibits bad spectral properties arising from frequency or geometry-based ill-conditioning, which render iterative solvers slow to converge or stagnate occasionally. In this communication, a novel technique to expedite the convergence of MoMmatrix solution at a specific frequency is proposed, by extracting and applying Eigen-vectors from a previ...
The electromagnetic (EM) scattering from three-dimensional (3D) conducting bodies has been studied. ...
The dual basis function proposed by Chen and Wilton in 1990 is used to represent the magnetic curren...
Nested iterative solutions using full and approximate forms of the multilevel fast multipole algorit...
Three-dimensional (3-D) full-wave electromagnetic simulation using method of moments (MoM) under the...
3-D full-wave method of moments (MoM) based electromagnetic analysis is a popular means toward accur...
3D full-wave Method of Moments (MoM) is a well established method to solve Maxwell's equations numer...
With the rapid increase in available compute power and memory, and bolstered by the advent of effici...
Full-wave electromagnetic solutions of electrically large objects require large amounts of computer ...
We consider the solution of electromagnetics problems involving perfectly conducting objects formula...
We have developed an iterative solver for the Moment Method. It computes a matrix–vector product wit...
We develop a new method to precondition the matrix equation resulting from applying the method of mo...
Fast-multipole and precorrected-FFT accelerated iterative methods have substantially improved the ef...
We discuss the solution of the Maxwell's equations from static to microwave frequencies. First, we r...
The purpose of this thesis is the advancement of numerical techniques in computational electromagnet...
The Method of Moments is a numerical technique for solving electromagnetic problems with integral eq...
The electromagnetic (EM) scattering from three-dimensional (3D) conducting bodies has been studied. ...
The dual basis function proposed by Chen and Wilton in 1990 is used to represent the magnetic curren...
Nested iterative solutions using full and approximate forms of the multilevel fast multipole algorit...
Three-dimensional (3-D) full-wave electromagnetic simulation using method of moments (MoM) under the...
3-D full-wave method of moments (MoM) based electromagnetic analysis is a popular means toward accur...
3D full-wave Method of Moments (MoM) is a well established method to solve Maxwell's equations numer...
With the rapid increase in available compute power and memory, and bolstered by the advent of effici...
Full-wave electromagnetic solutions of electrically large objects require large amounts of computer ...
We consider the solution of electromagnetics problems involving perfectly conducting objects formula...
We have developed an iterative solver for the Moment Method. It computes a matrix–vector product wit...
We develop a new method to precondition the matrix equation resulting from applying the method of mo...
Fast-multipole and precorrected-FFT accelerated iterative methods have substantially improved the ef...
We discuss the solution of the Maxwell's equations from static to microwave frequencies. First, we r...
The purpose of this thesis is the advancement of numerical techniques in computational electromagnet...
The Method of Moments is a numerical technique for solving electromagnetic problems with integral eq...
The electromagnetic (EM) scattering from three-dimensional (3D) conducting bodies has been studied. ...
The dual basis function proposed by Chen and Wilton in 1990 is used to represent the magnetic curren...
Nested iterative solutions using full and approximate forms of the multilevel fast multipole algorit...