khp-adaptive spectral projection based discontinuous Galerkin method for the numerical solution of wave equations with memory

Stefano Giani; Christian Engström; Luka Grubišić

doi:10.1016/j.cam.2023.115212

khp-adaptive spectral projection based discontinuous Galerkin method for the numerical solution of wave equations with memory

Stefano Giani, Christian Engström, Luka Grubišić

Mathematics (Faculty of Engineering)

Research output: Contribution to journal › Article › peer-review

Abstract

In this paper, we present an adaptive spectral projection based finite element method to numerically approximate the solution of the wave equation with memory. The adaptivity is not restricted to the mesh (hp-adaptivity), but it is also applied to the size of the computed spectrum (k-adaptivity). The meshes are refined using a residual based error estimator, while the size of the computed spectrum is adapted using the L² norm of the error of the projected data. We show that the approach can be very efficient and accurate.

Original language	English
Article number	115212
Journal	Journal of Computational and Applied Mathematics
Volume	429
DOIs	https://doi.org/10.1016/j.cam.2023.115212
Publication status	Published - 2023 Sept

Bibliographical note

Publisher Copyright:
© 2023 The Author(s)

Subject classification (UKÄ)

Computational Mathematics

Free keywords

Automatic adaptivity
Discontinuous Galerkin method
Inverse Laplace transform
Spectral projection
Wave equation with delay

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10.1016/j.cam.2023.115212Licence: CC BY

Cite this

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title = "khp-adaptive spectral projection based discontinuous Galerkin method for the numerical solution of wave equations with memory",

abstract = "In this paper, we present an adaptive spectral projection based finite element method to numerically approximate the solution of the wave equation with memory. The adaptivity is not restricted to the mesh (hp-adaptivity), but it is also applied to the size of the computed spectrum (k-adaptivity). The meshes are refined using a residual based error estimator, while the size of the computed spectrum is adapted using the L2 norm of the error of the projected data. We show that the approach can be very efficient and accurate.",

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author = "Stefano Giani and Christian Engstr{\"o}m and Luka Grubi{\v s}i{\'c}",

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T1 - khp-adaptive spectral projection based discontinuous Galerkin method for the numerical solution of wave equations with memory

AU - Giani, Stefano

AU - Engström, Christian

AU - Grubišić, Luka

PY - 2023/9

Y1 - 2023/9

N2 - In this paper, we present an adaptive spectral projection based finite element method to numerically approximate the solution of the wave equation with memory. The adaptivity is not restricted to the mesh (hp-adaptivity), but it is also applied to the size of the computed spectrum (k-adaptivity). The meshes are refined using a residual based error estimator, while the size of the computed spectrum is adapted using the L2 norm of the error of the projected data. We show that the approach can be very efficient and accurate.

AB - In this paper, we present an adaptive spectral projection based finite element method to numerically approximate the solution of the wave equation with memory. The adaptivity is not restricted to the mesh (hp-adaptivity), but it is also applied to the size of the computed spectrum (k-adaptivity). The meshes are refined using a residual based error estimator, while the size of the computed spectrum is adapted using the L2 norm of the error of the projected data. We show that the approach can be very efficient and accurate.

KW - Automatic adaptivity

KW - Discontinuous Galerkin method

KW - Inverse Laplace transform

KW - Spectral projection

KW - Wave equation with delay

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DO - 10.1016/j.cam.2023.115212

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SN - 0377-0427

VL - 429

JO - Journal of Computational and Applied Mathematics

JF - Journal of Computational and Applied Mathematics

M1 - 115212

ER -

khp-adaptive spectral projection based discontinuous Galerkin method for the numerical solution of wave equations with memory

Abstract

Bibliographical note

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