Finite-element based iterative hybrid techniques for the solution of electrically large radiation problems

Dong Ho Han; Anastasis C. Polycarpou; Constantine A. Balanis

Finite-element based iterative hybrid techniques for the solution of electrically large radiation problems

Dong Ho Han
, Anastasis C. Polycarpou
, Constantine A. Balanis

Department of Engineering

Arizona State University

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

Abstract

The finite element method (FEM) and the high-frequency asymptotic technique (HEAT) are combined to produce the total fields in such a manner that the FEM and HEATs computations are performed separately, yet the presence of the other domain is fully taken into consideration through an iteration algorithm. A representative example is given to demonstrate that the hybridized method can successfully reconstruct most of the interactions occurring between the low- and high-frequency domains.

Original language	English
Title of host publication	IEEE Antennas and Propagation Society, AP-S International Symposium (Digest)
Pages	2320-2323
Number of pages	4
Volume	4
Publication status	Published - 2000

Cite this

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title = "Finite-element based iterative hybrid techniques for the solution of electrically large radiation problems",

abstract = "The finite element method (FEM) and the high-frequency asymptotic technique (HEAT) are combined to produce the total fields in such a manner that the FEM and HEATs computations are performed separately, yet the presence of the other domain is fully taken into consideration through an iteration algorithm. A representative example is given to demonstrate that the hybridized method can successfully reconstruct most of the interactions occurring between the low- and high-frequency domains.",

author = "Han, \{Dong Ho\} and Polycarpou, \{Anastasis C.\} and Balanis, \{Constantine A.\}",

year = "2000",

language = "English",

isbn = "0780363698",

volume = "4",

pages = "2320--2323",

booktitle = "IEEE Antennas and Propagation Society, AP-S International Symposium (Digest)",

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Finite-element based iterative hybrid techniques for the solution of electrically large radiation problems. / Han, Dong Ho; Polycarpou, Anastasis C.; Balanis, Constantine A.
IEEE Antennas and Propagation Society, AP-S International Symposium (Digest). Vol. 4 2000. p. 2320-2323.

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

TY - GEN

T1 - Finite-element based iterative hybrid techniques for the solution of electrically large radiation problems

AU - Han, Dong Ho

AU - Polycarpou, Anastasis C.

AU - Balanis, Constantine A.

PY - 2000

Y1 - 2000

N2 - The finite element method (FEM) and the high-frequency asymptotic technique (HEAT) are combined to produce the total fields in such a manner that the FEM and HEATs computations are performed separately, yet the presence of the other domain is fully taken into consideration through an iteration algorithm. A representative example is given to demonstrate that the hybridized method can successfully reconstruct most of the interactions occurring between the low- and high-frequency domains.

AB - The finite element method (FEM) and the high-frequency asymptotic technique (HEAT) are combined to produce the total fields in such a manner that the FEM and HEATs computations are performed separately, yet the presence of the other domain is fully taken into consideration through an iteration algorithm. A representative example is given to demonstrate that the hybridized method can successfully reconstruct most of the interactions occurring between the low- and high-frequency domains.

UR - https://www.scopus.com/pages/publications/0034542888

M3 - Conference contribution

AN - SCOPUS:0034542888

SN - 0780363698

VL - 4

SP - 2320

EP - 2323

BT - IEEE Antennas and Propagation Society, AP-S International Symposium (Digest)

ER -

Finite-element based iterative hybrid techniques for the solution of electrically large radiation problems

Abstract

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