The multiscale compressed block decomposition algorithm (MS-CBD) is presented for highly accelerated direct (non iterative) solution of electromagnetic scattering and radiation problems with the method of moments (MoM). The algorithm is demonstrated to exhibit N2 computational complexity and storage requirements scaling with N 3.5, for electrically large objects. Several numerical examples illustrate the efficiency of the method, in particular for problems with multiple excitation vectors. The largest problem presented in this paper is the monostatic RCS of the NASA almond at 50 GHz, for one thousand incidence angles, discretized using 442,089 RWG basisf unctions. Being entirely algebraic, MS-CBD is independent of the Greens function of t...
The Method of Moments for electromagnetic scattering and radiation problems is often used in conjunc...
The purpose of this thesis is the advancement of numerical techniques in computational electromagnet...
Many electromagnetic related problems are too complex to solve using traditional analytical methods....
The multiscale compressed block decomposition algorithm (MS-CBD) is presented for highly accelerated...
A novel algorithm, the compressed block decomposition (CBD), is presented for highly accelerated dir...
This paper addresses the direct (noniterative) solution of the method-of-moments (MoM) linear system...
algorithm (MS-CBD), a direct (non-iterative) linear solver, is applied to accelerate the solution of...
A new preconditioner for Method of Moments computations is presented. It is based on a direct solver...
The Multiscale Compressed Block Decomposition algorithm (MS-CBD), a direct (non-iterative) linear so...
A comparison is presented between different algorithms for direct (non-iterative) accelerated solut...
This paper presents a study of the scaling with frequency (computational complexity) of precondition...
In this paper, we describe a new and efficient strategy for solving linear system of equations arisi...
A novel preconditioning scheme for Method of Moment computations is proposed. It consists of an adap...
The Method of Moments is a numerical technique for solving electromagnetic problems with integral eq...
An innovative procedure is presented that allows the method of moments (MoM) analysis of large and c...
The Method of Moments for electromagnetic scattering and radiation problems is often used in conjunc...
The purpose of this thesis is the advancement of numerical techniques in computational electromagnet...
Many electromagnetic related problems are too complex to solve using traditional analytical methods....
The multiscale compressed block decomposition algorithm (MS-CBD) is presented for highly accelerated...
A novel algorithm, the compressed block decomposition (CBD), is presented for highly accelerated dir...
This paper addresses the direct (noniterative) solution of the method-of-moments (MoM) linear system...
algorithm (MS-CBD), a direct (non-iterative) linear solver, is applied to accelerate the solution of...
A new preconditioner for Method of Moments computations is presented. It is based on a direct solver...
The Multiscale Compressed Block Decomposition algorithm (MS-CBD), a direct (non-iterative) linear so...
A comparison is presented between different algorithms for direct (non-iterative) accelerated solut...
This paper presents a study of the scaling with frequency (computational complexity) of precondition...
In this paper, we describe a new and efficient strategy for solving linear system of equations arisi...
A novel preconditioning scheme for Method of Moment computations is proposed. It consists of an adap...
The Method of Moments is a numerical technique for solving electromagnetic problems with integral eq...
An innovative procedure is presented that allows the method of moments (MoM) analysis of large and c...
The Method of Moments for electromagnetic scattering and radiation problems is often used in conjunc...
The purpose of this thesis is the advancement of numerical techniques in computational electromagnet...
Many electromagnetic related problems are too complex to solve using traditional analytical methods....