Efficient solution of a wave equation with fractional-order dissipative terms

Efficient solution of a wave equation with fractional-order dissipative terms

We consider a wave equation with fractional-order dissipative terms modeling visco-thermal losses on the lateral walls of a duct, namely the Webster–Lokshin model. Diffusive representations of fractional derivatives are used, first to prove existence and uniqueness results, then to design a numerica...

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Veröffentlicht in:Journal of computational and applied mathematics 2010-07, Vol.234 (6), p.2003-2010
Hauptverfasser: Haddar, H., Li, J.-R., Matignon, D.
Format: Artikel
Sprache:eng
Schlagworte:
Accuracy
Derivatives
Diffusive representation
Dissipation
Exact solutions
Fractional derivative
Mathematical analysis
Mathematical models
Mathematics
Numerical Analysis
Spectral approximation
Walls
Wave equations
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Zusammenfassung:We consider a wave equation with fractional-order dissipative terms modeling visco-thermal losses on the lateral walls of a duct, namely the Webster–Lokshin model. Diffusive representations of fractional derivatives are used, first to prove existence and uniqueness results, then to design a numerical scheme which avoids the storage of the entire history of past data. Two schemes are proposed depending on the choice of a quadrature rule in the Laplace domain. The first one mimics the continuous energy balance but suffers from a loss of accuracy in long time simulation. The second one provides uniform control of the accuracy. However, even though the latter is more efficient and numerically stable under the standard CFL condition, no discrete energy balance has been yet found for it. Numerical results of comparisons with a closed-form solution are provided.
ISSN:0377-0427
1879-1778
DOI:10.1016/j.cam.2009.08.051