Title :
A Recursive Sparsification of the Inverse Hodge Matrix
Author :
Moura, A.S. ; Saldanha, R.R. ; Silva, E.J. ; Lisboa, A.C. ; Facco, W.G. ; Facco, N.Z.
Author_Institution :
Dept. of Exact Sci., Fed. Univ. of Vales Jequitinhonha & Mucuri, Jequitinhonha, Brazil
Abstract :
When applying the theory of differential forms to solve wave propagation problems in time domain, we must solve at each time step a sparse linear system defined by the insertion of constitutive laws via the mass matrices. In this paper, we describe a recursive technique to efficiently calculate the approximated inverse of Hodge matrix. The fundamental idea is to recursively decompose the mass matrix in to a decreasing size sequence of matrices using block matrix inversion. During the recomposition process, the matrix is sparsified. Numerical results are presented to validate our approach.
Keywords :
Maxwell equations; differential equations; matrix algebra; wave propagation; Maxwell equations; block matrix inversion; differential forms; inverse hodge matrix; mass matrices; recomposition process; recursive sparsification; time domain solutions; wave propagation problems; Approximation methods; Cavity resonators; Matrix decomposition; Sparse matrices; Symmetric matrices; Time domain analysis; Block matrix inversion; differential forms; hodge matrix; sparsification;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2011.2175442
