Discretization of hybrid VSIE using mixed mesh elements with zeroth-order galerkin basis functions

Zhiyong Zeng; Cai Cheng Lu

doi:10.1109/TAP.2006.875277

Discretization of hybrid VSIE using mixed mesh elements with zeroth-order galerkin basis functions

Zhiyong Zeng
, Cai Cheng Lu

Electrical and Computer Engineering

Producción científica: Article › revisión exhaustiva

21 Citas (Scopus)

Resumen

The hybrid volume and surface integral equation approach is applied to solve electromagnetic scattering and radiation problems involving conducting and/or dielectric objects. To flexibly and accurately model the complex structures and reduce the number of unknowns, mixed mesh scheme is developed to discretize the object. In this scheme, the triangles and quadrangles are used to discretize the conducting part of the object, and the tetrahedrons, hexahedrons, prisms and pyramids are used to model the dielectric volumes of the scatterer. Numerical results showed the solution accuracies from the mixed element meshes are of the same level compared with the single element meshes, but uses much less number of unknowns. This leads to flexibility for mesh generating and reduces the use of computing resources.

Idioma original	English
Páginas (desde-hasta)	1863-1870
Número de páginas	8
Publicación	IEEE Transactions on Antennas and Propagation
Volumen	54
N.º	6
DOI	https://doi.org/10.1109/TAP.2006.875277
Estado	Published - jun 2006

Nota bibliográfica

Funding Information:
Manuscript received August 27, 2004; revised February 1, 2006. This work was supported in part by a YIP award from the Office of Naval Research under Award N00014-00-1-0605, and in part by an NSF CAREER Award under award ECS-0093692.

Financiación

Manuscript received August 27, 2004; revised February 1, 2006. This work was supported in part by a YIP award from the Office of Naval Research under Award N00014-00-1-0605, and in part by an NSF CAREER Award under award ECS-0093692.

Financiadores	Número del financiador
National Science Foundation (NSF)	ECS-0093692
Office of Naval Research	N00014-00-1-0605

ASJC Scopus subject areas

Electrical and Electronic Engineering

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10.1109/TAP.2006.875277

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title = "Discretization of hybrid VSIE using mixed mesh elements with zeroth-order galerkin basis functions",

abstract = "The hybrid volume and surface integral equation approach is applied to solve electromagnetic scattering and radiation problems involving conducting and/or dielectric objects. To flexibly and accurately model the complex structures and reduce the number of unknowns, mixed mesh scheme is developed to discretize the object. In this scheme, the triangles and quadrangles are used to discretize the conducting part of the object, and the tetrahedrons, hexahedrons, prisms and pyramids are used to model the dielectric volumes of the scatterer. Numerical results showed the solution accuracies from the mixed element meshes are of the same level compared with the single element meshes, but uses much less number of unknowns. This leads to flexibility for mesh generating and reduces the use of computing resources.",

keywords = "Divergence-conforming basis functions, Electromagnetic scattering, Integral equation, Mesh generation",

author = "Zhiyong Zeng and Lu, \{Cai Cheng\}",

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AU - Zeng, Zhiyong

AU - Lu, Cai Cheng

N1 - Funding Information: Manuscript received August 27, 2004; revised February 1, 2006. This work was supported in part by a YIP award from the Office of Naval Research under Award N00014-00-1-0605, and in part by an NSF CAREER Award under award ECS-0093692.

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N2 - The hybrid volume and surface integral equation approach is applied to solve electromagnetic scattering and radiation problems involving conducting and/or dielectric objects. To flexibly and accurately model the complex structures and reduce the number of unknowns, mixed mesh scheme is developed to discretize the object. In this scheme, the triangles and quadrangles are used to discretize the conducting part of the object, and the tetrahedrons, hexahedrons, prisms and pyramids are used to model the dielectric volumes of the scatterer. Numerical results showed the solution accuracies from the mixed element meshes are of the same level compared with the single element meshes, but uses much less number of unknowns. This leads to flexibility for mesh generating and reduces the use of computing resources.

AB - The hybrid volume and surface integral equation approach is applied to solve electromagnetic scattering and radiation problems involving conducting and/or dielectric objects. To flexibly and accurately model the complex structures and reduce the number of unknowns, mixed mesh scheme is developed to discretize the object. In this scheme, the triangles and quadrangles are used to discretize the conducting part of the object, and the tetrahedrons, hexahedrons, prisms and pyramids are used to model the dielectric volumes of the scatterer. Numerical results showed the solution accuracies from the mixed element meshes are of the same level compared with the single element meshes, but uses much less number of unknowns. This leads to flexibility for mesh generating and reduces the use of computing resources.

KW - Divergence-conforming basis functions

KW - Electromagnetic scattering

KW - Integral equation

KW - Mesh generation

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Discretization of hybrid VSIE using mixed mesh elements with zeroth-order galerkin basis functions

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Nota bibliográfica

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ASJC Scopus subject areas

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