A generalized finite element method for the strongly damped wave equation with rapidly varying data
Journal article, 2021
We propose a generalized finite element method for the strongly damped wave equation with highly varying coefficients. The proposed method is based on the localized orthogonal decomposition introduced in Malqvist and Peterseim [Math. Comp. 83 (2014) 2583-2603], and is designed to handle independent variations in both the damping and the wave propagation speed respectively. The method does so by automatically correcting for the damping in the transient phase and for the propagation speed in the steady state phase. Convergence of optimal order is proven in L2(H1)-norm, independent of the derivatives of the coefficients. We present numerical examples that confirm the theoretical findings.
Strongly damped wave equation
Reduced basis method
Localized orthogonal decomposition
Finite element method
Multiscale
Author
Per Ljung
Chalmers, Mathematical Sciences, Applied Mathematics and Statistics
University of Gothenburg
Axel Målqvist
Chalmers, Mathematical Sciences, Applied Mathematics and Statistics
University of Gothenburg
Anna Persson
Royal Institute of Technology (KTH)
Mathematical Modelling and Numerical Analysis
28227840 (ISSN) 28047214 (eISSN)
Vol. 55 4 1375-1403Subject Categories
Applied Mechanics
Computational Mathematics
Mathematical Analysis
DOI
10.1051/m2an/2021023