In this paper an iterative finite-element procedure is described for the solution of non-linear time-varying eddy current problems in open boundaries. A fictitious boundary delimiting a bounded domain is introduced. At each discrete time, two algebraic systems are set up and solved for the predictor and corrector solutions. Both these systems are solved iteratively by assuming a first guess for the Dirichlet condition an the fictitious boundary and improving ht by making use of the free-space Green's function until convergence takes place. A great reduction of computing time is obtained with respect to the solution with a Newton-Raphson solver.

A Predictor-Corrector Scheme for Open Boundary Problems

AIELLO, Giovanni;ALFONZETTI, Salvatore;SALERNO, Nunzio
1998-01-01

Abstract

In this paper an iterative finite-element procedure is described for the solution of non-linear time-varying eddy current problems in open boundaries. A fictitious boundary delimiting a bounded domain is introduced. At each discrete time, two algebraic systems are set up and solved for the predictor and corrector solutions. Both these systems are solved iteratively by assuming a first guess for the Dirichlet condition an the fictitious boundary and improving ht by making use of the free-space Green's function until convergence takes place. A great reduction of computing time is obtained with respect to the solution with a Newton-Raphson solver.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.11769/859
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