Open AccessTime-domain modeling of electromagnetic diffusion with a frequency-domain code
Author(s) -
W. A. Mulder,
Marwan Wirianto,
Evert Slob
Publication year - 2008
Publication title -
geophysics
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.178
H-Index - 172
eISSN - 1942-2156
pISSN - 0016-8033
DOI - 10.1190/1.2799093
Subject(s) - solver , interpolation (computer graphics) , frequency domain , computer science , fast fourier transform , hermite interpolation , algorithm , fourier transform , domain (mathematical analysis) , piecewise , time domain , multigrid method , grid , mathematical optimization , computational science , mathematics , hermite polynomials , mathematical analysis , partial differential equation , telecommunications , geometry , frame (networking) , computer vision
We modeled time-domain EM measurements of induction currents for marine and land applications with a frequency-domain code. An analysis of the computational complexity of a number of numerical methods shows that frequency-domain modeling followed by a Fourier transform is an attractive choice if a sufficiently powerful solver is available. A recently developed, robust multigrid solver meets this requirement. An interpolation criterion determined the automatic selection of frequencies. The skin depth controlled the construction of the computational grid at each frequency. Tests of the method against exact solutions for some simple problems and a realistic marine example demonstrate that a limited number of frequencies suffice to provide time-domain solutions after piecewise-cubic Hermite interpolation and a fast Fourier transform
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