The fast solution of three-dimensional eddy current problems is still an open problem, especially when real-size finite element models with millions of degrees of freedom are considered. In order to lower the number of degrees of freedom a magnetic scalar potential can be used in the insulating parts of the model. This may become difficult when the model geometry presents some conductive parts which are multiply connected. In this work a multigrid-based algoritm is proposed that allows for a calculation in linear-time of cohomology, which is needed to introduce the scalar potential without cuts. This algorithm relies on an algebraic multigrid solver for curl-curl field problems, which ensures optimal computational complexity. Numerical resu...
This paper presents a novel technique to perform the topological pre-processing needed in formulatio...
Abstract: The adaptive fast multipole method is combined with a three-dimensional (3-D) eddy-current...
A novel 3-D integral formulation for solving eddy currents in thin conducting structures with comple...
The fast solution of three-dimensional eddy current problems is still an open problem, especially wh...
A novel h-phi approach for solving 3-D time-harmonic eddy current problems is presented. It makes it...
A hybrid a-Cell Method formulation for solving eddy-current problems in 3-D multiply-connected regio...
A novel h-φ approach for solving 3-D time-harmonic eddy current problems is presented. It makes it p...
The volume integral equation method based on the current vector potential approximated by means edge...
A novel 3-D hybrid formulation for time-harmonic eddy current problems in multiply connected domains...
The problem of computing cohomology generators of a cell complex is gaining more and more interest i...
We present a Volume Integral formulation for the solution of large scale eddy-current problems coupl...
This contribution addresses the solution of eddy-current problems by means of a volume integral form...
This paper presents a novel technique to perform the topological pre-processing needed in formulatio...
Abstract. With the rise in popularity of compatible nite element, nite dierence and nite volume dis...
This paper presents a novel technique to perform the topological pre-processing needed in formulatio...
Abstract: The adaptive fast multipole method is combined with a three-dimensional (3-D) eddy-current...
A novel 3-D integral formulation for solving eddy currents in thin conducting structures with comple...
The fast solution of three-dimensional eddy current problems is still an open problem, especially wh...
A novel h-phi approach for solving 3-D time-harmonic eddy current problems is presented. It makes it...
A hybrid a-Cell Method formulation for solving eddy-current problems in 3-D multiply-connected regio...
A novel h-φ approach for solving 3-D time-harmonic eddy current problems is presented. It makes it p...
The volume integral equation method based on the current vector potential approximated by means edge...
A novel 3-D hybrid formulation for time-harmonic eddy current problems in multiply connected domains...
The problem of computing cohomology generators of a cell complex is gaining more and more interest i...
We present a Volume Integral formulation for the solution of large scale eddy-current problems coupl...
This contribution addresses the solution of eddy-current problems by means of a volume integral form...
This paper presents a novel technique to perform the topological pre-processing needed in formulatio...
Abstract. With the rise in popularity of compatible nite element, nite dierence and nite volume dis...
This paper presents a novel technique to perform the topological pre-processing needed in formulatio...
Abstract: The adaptive fast multipole method is combined with a three-dimensional (3-D) eddy-current...
A novel 3-D integral formulation for solving eddy currents in thin conducting structures with comple...