Fast and accurate finite-element and boundary-integral method for scattering by complex targets

X. Q. Sheng; E. K.N. Yung; J. M. Jin; W. C. Chew

doi:10.1109/ICCEA.1999.825172

Fast and accurate finite-element and boundary-integral method for scattering by complex targets

X. Q. Sheng, E. K.N. Yung, J. M. Jin, W. C. Chew

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

This paper studies in detail a variety of formulations for the hybrid finite-element and boundary-integral (FE-BI) methods for three-dimensional (3D) electromagnetic scattering by inhomogeneous objects. A new formulation is then proposed and numerical results show that the resulting solution has a good efficiency and accuracy and is completely immune to the problem of interior resonance. The multilevel fast multipole algorithm (MLFMA) is employed to significantly reduce the memory requirement and computational complexity of the proposed FE-BI method. The scattering by several typical targets is computed by this method, demonstrating the accuracy and efficiency of this proposed MLFMA-enhanced FE-BI method.

Original language	English (US)
Title of host publication	1999 International Conference on Computational Electromagnetics and its Applications. ICCEA 1999 - Proceedings
Editors	Gao Benqing, Lu Xiaode
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	438-441
Number of pages	4
ISBN (Print)	0780358023, 9780780358027
DOIs	https://doi.org/10.1109/ICCEA.1999.825172
State	Published - 1999
Event	1999 International Conference on Computational Electromagnetics and its Applications. ICCEA 1999 - Beijing, China Duration: Nov 4 1999 → Nov 4 1999

Publication series

Name	1999 International Conference on Computational Electromagnetics and its Applications. ICCEA 1999 - Proceedings

Other

Other	1999 International Conference on Computational Electromagnetics and its Applications. ICCEA 1999
Country/Territory	China
City	Beijing
Period	11/4/99 → 11/4/99

ASJC Scopus subject areas

Computer Networks and Communications
Computational Mathematics
Radiation

Online availability

10.1109/ICCEA.1999.825172

Library availability

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Sheng, X. Q., Yung, E. K. N., Jin, J. M., & Chew, W. C. (1999). Fast and accurate finite-element and boundary-integral method for scattering by complex targets. In G. Benqing, & L. Xiaode (Eds.), 1999 International Conference on Computational Electromagnetics and its Applications. ICCEA 1999 - Proceedings (pp. 438-441). [00825172] (1999 International Conference on Computational Electromagnetics and its Applications. ICCEA 1999 - Proceedings). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/ICCEA.1999.825172

Fast and accurate finite-element and boundary-integral method for scattering by complex targets. / Sheng, X. Q.; Yung, E. K.N.; Jin, J. M. et al.

1999 International Conference on Computational Electromagnetics and its Applications. ICCEA 1999 - Proceedings. ed. / Gao Benqing; Lu Xiaode. Institute of Electrical and Electronics Engineers Inc., 1999. p. 438-441 00825172 (1999 International Conference on Computational Electromagnetics and its Applications. ICCEA 1999 - Proceedings).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Sheng, XQ, Yung, EKN, Jin, JM & Chew, WC 1999, Fast and accurate finite-element and boundary-integral method for scattering by complex targets. in G Benqing & L Xiaode (eds), 1999 International Conference on Computational Electromagnetics and its Applications. ICCEA 1999 - Proceedings., 00825172, 1999 International Conference on Computational Electromagnetics and its Applications. ICCEA 1999 - Proceedings, Institute of Electrical and Electronics Engineers Inc., pp. 438-441, 1999 International Conference on Computational Electromagnetics and its Applications. ICCEA 1999, Beijing, China, 11/4/99. https://doi.org/10.1109/ICCEA.1999.825172

Sheng XQ, Yung EKN, Jin JM, Chew WC. Fast and accurate finite-element and boundary-integral method for scattering by complex targets. In Benqing G, Xiaode L, editors, 1999 International Conference on Computational Electromagnetics and its Applications. ICCEA 1999 - Proceedings. Institute of Electrical and Electronics Engineers Inc. 1999. p. 438-441. 00825172. (1999 International Conference on Computational Electromagnetics and its Applications. ICCEA 1999 - Proceedings). doi: 10.1109/ICCEA.1999.825172

Sheng, X. Q. ; Yung, E. K.N. ; Jin, J. M. et al. / Fast and accurate finite-element and boundary-integral method for scattering by complex targets. 1999 International Conference on Computational Electromagnetics and its Applications. ICCEA 1999 - Proceedings. editor / Gao Benqing ; Lu Xiaode. Institute of Electrical and Electronics Engineers Inc., 1999. pp. 438-441 (1999 International Conference on Computational Electromagnetics and its Applications. ICCEA 1999 - Proceedings).

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abstract = "This paper studies in detail a variety of formulations for the hybrid finite-element and boundary-integral (FE-BI) methods for three-dimensional (3D) electromagnetic scattering by inhomogeneous objects. A new formulation is then proposed and numerical results show that the resulting solution has a good efficiency and accuracy and is completely immune to the problem of interior resonance. The multilevel fast multipole algorithm (MLFMA) is employed to significantly reduce the memory requirement and computational complexity of the proposed FE-BI method. The scattering by several typical targets is computed by this method, demonstrating the accuracy and efficiency of this proposed MLFMA-enhanced FE-BI method.",

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N2 - This paper studies in detail a variety of formulations for the hybrid finite-element and boundary-integral (FE-BI) methods for three-dimensional (3D) electromagnetic scattering by inhomogeneous objects. A new formulation is then proposed and numerical results show that the resulting solution has a good efficiency and accuracy and is completely immune to the problem of interior resonance. The multilevel fast multipole algorithm (MLFMA) is employed to significantly reduce the memory requirement and computational complexity of the proposed FE-BI method. The scattering by several typical targets is computed by this method, demonstrating the accuracy and efficiency of this proposed MLFMA-enhanced FE-BI method.

AB - This paper studies in detail a variety of formulations for the hybrid finite-element and boundary-integral (FE-BI) methods for three-dimensional (3D) electromagnetic scattering by inhomogeneous objects. A new formulation is then proposed and numerical results show that the resulting solution has a good efficiency and accuracy and is completely immune to the problem of interior resonance. The multilevel fast multipole algorithm (MLFMA) is employed to significantly reduce the memory requirement and computational complexity of the proposed FE-BI method. The scattering by several typical targets is computed by this method, demonstrating the accuracy and efficiency of this proposed MLFMA-enhanced FE-BI method.

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Fast and accurate finite-element and boundary-integral method for scattering by complex targets

Abstract

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