Far-Field Decoupled Basis for the Method of Moments-2D Case | Zendy

Ruth V. Sabariego | Zendy; L. Lesa | Zendy; F. Obelleiro | Zendy; A. G. Pino | Zendy

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Far-Field Decoupled Basis for the Method of Moments-2D Case

Author(s) -

Ruth V. Sabariego,

L. Lesa,

F. Obelleiro,

A. G. Pino

Publication year - 1999

Publication title -

electromagnetic waves

Language(s) - English

Resource type - Journals

eISSN - 1559-8985

pISSN - 1070-4698

DOI - 10.2528/pier99032901

Subject(s) - basis (linear algebra) , field (mathematics) , method of moments (probability theory) , mathematics , computer science , geometry , statistics , pure mathematics , estimator

When solving electromagnetic problems, integral equation methods, such as the Method of Moments, are known to yield to dense matrix systems whose solution usually supposes an intensive computational cost. Continuous efforts have been developed to overcome this drawback. In this paper, the goal is to generate a set of basis functions defined over the entire domain and characterized by a null radiated power coupling in the far-field region. This behavior permits to diminish the density of unknowns per wavelength, considering only a reduced set of the new basis. Furthermore, the resulting matrix has a sparse structure. All these factors amounts to considerable savings in terms of computer storage and CPU requirements.

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