Solving scattering problems using the stabilized finite element and the algebraic multigrid

Ivan Luthfi Ihwani; Feng Nan Hwang

doi:10.1063/5.0041630

Solving scattering problems using the stabilized finite element and the algebraic multigrid

Ivan Luthfi Ihwani, Feng Nan Hwang

Department of Mathematics

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

Abstract

Electromagnetic waves are waves that propagate without the need of medium. One of the equations to describe the phenomenon of electromagnetic wave scattering problems is the Helmholtz equation. There are difficulties in solving the Helmholtz equation numerically, two of which that the solution form is highly oscillatory and the numerical solution of the high-frequency cases has low accuracy, which is called "pollution effects". Due to the limitation of memory and CPU size in a digital computer, simulating this problem with a large size of computational points is impossible. Besides, solving the linear system of the Helmholtz equation is quite challenging. It is difficult to find an efficient iterative solver that can converge with only a few iterations. This research presents a numerical scheme to minimize the "pollution effect"that appear in the numerical solution of the Helmholtz equation. The numerical scheme gives better accuracy than the standard scheme of the finite element. Moreover, we solve the linear system by using an algebraic multigrid as a preconditioner in a main iteration routine, which is based on a preconditioned variant of generalized conjugate residual (GCR) methods. This solver can give a better performance regarding its number of iteration and the time cost.

Original language	English
Title of host publication	2nd Science and Mathematics International Conference, SMIC 2020
Subtitle of host publication	Transforming Research and Education of Science and Mathematics in the Digital Age
Editors	Meiliasari Meiliasari, Yuli Rahmawati, Mutia Delina, Ella Fitriani
Publisher	American Institute of Physics Inc.
ISBN (Electronic)	9780735440753
DOIs	https://doi.org/10.1063/5.0041630
State	Published - 2 Apr 2021
Event	2nd Science and Mathematics International Conference: Transforming Research and Education of Science and Mathematics in the Digital Age, SMIC 2020 - Jakarta, Indonesia Duration: 8 Aug 2020 → 9 Aug 2020

Publication series

Name	AIP Conference Proceedings
Volume	2331
ISSN (Print)	0094-243X
ISSN (Electronic)	1551-7616

Conference

Conference	2nd Science and Mathematics International Conference: Transforming Research and Education of Science and Mathematics in the Digital Age, SMIC 2020
Country/Territory	Indonesia
City	Jakarta
Period	8/08/20 → 9/08/20

Access to Document

10.1063/5.0041630

Cite this

Ihwani, I. L., & Hwang, F. N. (2021). Solving scattering problems using the stabilized finite element and the algebraic multigrid. In M. Meiliasari, Y. Rahmawati, M. Delina, & E. Fitriani (Eds.), 2nd Science and Mathematics International Conference, SMIC 2020: Transforming Research and Education of Science and Mathematics in the Digital Age Article 020023 (AIP Conference Proceedings; Vol. 2331). American Institute of Physics Inc.. https://doi.org/10.1063/5.0041630

Ihwani, Ivan Luthfi ; Hwang, Feng Nan. / Solving scattering problems using the stabilized finite element and the algebraic multigrid. 2nd Science and Mathematics International Conference, SMIC 2020: Transforming Research and Education of Science and Mathematics in the Digital Age. editor / Meiliasari Meiliasari ; Yuli Rahmawati ; Mutia Delina ; Ella Fitriani. American Institute of Physics Inc., 2021. (AIP Conference Proceedings).

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abstract = "Electromagnetic waves are waves that propagate without the need of medium. One of the equations to describe the phenomenon of electromagnetic wave scattering problems is the Helmholtz equation. There are difficulties in solving the Helmholtz equation numerically, two of which that the solution form is highly oscillatory and the numerical solution of the high-frequency cases has low accuracy, which is called {"}pollution effects{"}. Due to the limitation of memory and CPU size in a digital computer, simulating this problem with a large size of computational points is impossible. Besides, solving the linear system of the Helmholtz equation is quite challenging. It is difficult to find an efficient iterative solver that can converge with only a few iterations. This research presents a numerical scheme to minimize the {"}pollution effect{"}that appear in the numerical solution of the Helmholtz equation. The numerical scheme gives better accuracy than the standard scheme of the finite element. Moreover, we solve the linear system by using an algebraic multigrid as a preconditioner in a main iteration routine, which is based on a preconditioned variant of generalized conjugate residual (GCR) methods. This solver can give a better performance regarding its number of iteration and the time cost.",

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Ihwani, IL & Hwang, FN 2021, Solving scattering problems using the stabilized finite element and the algebraic multigrid. in M Meiliasari, Y Rahmawati, M Delina & E Fitriani (eds), 2nd Science and Mathematics International Conference, SMIC 2020: Transforming Research and Education of Science and Mathematics in the Digital Age., 020023, AIP Conference Proceedings, vol. 2331, American Institute of Physics Inc., 2nd Science and Mathematics International Conference: Transforming Research and Education of Science and Mathematics in the Digital Age, SMIC 2020, Jakarta, Indonesia, 8/08/20. https://doi.org/10.1063/5.0041630

Solving scattering problems using the stabilized finite element and the algebraic multigrid. / Ihwani, Ivan Luthfi; Hwang, Feng Nan.
2nd Science and Mathematics International Conference, SMIC 2020: Transforming Research and Education of Science and Mathematics in the Digital Age. ed. / Meiliasari Meiliasari; Yuli Rahmawati; Mutia Delina; Ella Fitriani. American Institute of Physics Inc., 2021. 020023 (AIP Conference Proceedings; Vol. 2331).

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

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N2 - Electromagnetic waves are waves that propagate without the need of medium. One of the equations to describe the phenomenon of electromagnetic wave scattering problems is the Helmholtz equation. There are difficulties in solving the Helmholtz equation numerically, two of which that the solution form is highly oscillatory and the numerical solution of the high-frequency cases has low accuracy, which is called "pollution effects". Due to the limitation of memory and CPU size in a digital computer, simulating this problem with a large size of computational points is impossible. Besides, solving the linear system of the Helmholtz equation is quite challenging. It is difficult to find an efficient iterative solver that can converge with only a few iterations. This research presents a numerical scheme to minimize the "pollution effect"that appear in the numerical solution of the Helmholtz equation. The numerical scheme gives better accuracy than the standard scheme of the finite element. Moreover, we solve the linear system by using an algebraic multigrid as a preconditioner in a main iteration routine, which is based on a preconditioned variant of generalized conjugate residual (GCR) methods. This solver can give a better performance regarding its number of iteration and the time cost.

AB - Electromagnetic waves are waves that propagate without the need of medium. One of the equations to describe the phenomenon of electromagnetic wave scattering problems is the Helmholtz equation. There are difficulties in solving the Helmholtz equation numerically, two of which that the solution form is highly oscillatory and the numerical solution of the high-frequency cases has low accuracy, which is called "pollution effects". Due to the limitation of memory and CPU size in a digital computer, simulating this problem with a large size of computational points is impossible. Besides, solving the linear system of the Helmholtz equation is quite challenging. It is difficult to find an efficient iterative solver that can converge with only a few iterations. This research presents a numerical scheme to minimize the "pollution effect"that appear in the numerical solution of the Helmholtz equation. The numerical scheme gives better accuracy than the standard scheme of the finite element. Moreover, we solve the linear system by using an algebraic multigrid as a preconditioner in a main iteration routine, which is based on a preconditioned variant of generalized conjugate residual (GCR) methods. This solver can give a better performance regarding its number of iteration and the time cost.

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Ihwani IL, Hwang FN. Solving scattering problems using the stabilized finite element and the algebraic multigrid. In Meiliasari M, Rahmawati Y, Delina M, Fitriani E, editors, 2nd Science and Mathematics International Conference, SMIC 2020: Transforming Research and Education of Science and Mathematics in the Digital Age. American Institute of Physics Inc. 2021. 020023. (AIP Conference Proceedings). doi: 10.1063/5.0041630

Solving scattering problems using the stabilized finite element and the algebraic multigrid

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