Efficient domain decomposition method for electromagnetic modeling of scattering from forest environments

Ines Fenni; Helene Roussel; Muriel Darces; Raj Mittra; IEEE

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Efficient domain decomposition method for electromagnetic modeling of scattering from forest environments

Ines Fenni, Helene Roussel, Muriel Darces, Raj Mittra and IEEE

2015 9th European Conference on Antennas and Propagation (EuCAP), pp.1-5

04/2015

Abstract

ACA

Accuracy

CBFM

Computational modeling

forest

Method of moments

non-uniform mesh

Scattering

Solid modeling

Three-dimensional displays

Vegetation

The CBFM technique is applied to enhance the performances of a 3D full-wave model, based on the volumetric integral representation of the electric field, for electromagnetic scattering from forest environments. This paper addresses different approaches adopted to improve the performances of the CBFM when applied to this 3D model. These approaches encompass the implementation of the CBFM on a non-uniform mesh depending on the dielectric properties of the trees, the diagonal representation of the macro basis functions and the hybridization of the CBFM with the ACA while generating the final reduced matrix.

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Title: Efficient domain decomposition method for electromagnetic modeling of scattering from forest environments
Creators - without role: Ines Fenni - Université Paris Cité
Helene Roussel - Université Paris Cité
Muriel Darces - Université Paris Cité
Raj Mittra - Pennsylvania State University
IEEE
Publication Details: 2015 9th European Conference on Antennas and Propagation (EuCAP), pp.1-5
Publisher: EurAAP
Identifiers: 9936008008331
Academic Unit: King Abdulaziz University
Language: English
Resource Type: Conference proceeding