Ervedoza S, Zuazua E (2009)
Publication Type: Journal article
Publication year: 2009
Book Volume: 91
Pages Range: 20-48
Journal Issue: 1
DOI: 10.1016/j.matpur.2008.09.002
We consider time semi-discrete approximations of a class of exponentially stable infinite-dimensional systems modeling, for instance, damped vibrations. It has recently been proved that for time semi-discrete systems, due to high frequency spurious components, the exponential decay property may be lost as the time step tends to zero. We prove that adding a suitable numerical viscosity term in the numerical scheme, one obtains approximations that are uniformly exponentially stable. This result is then combined with previous ones on space semi -di scretizati ons to derive similar results on fully-discrete approximation schemes. Our method is mainly based on a decoupling argument of low and high frequencies, the low frequency observability property for time semi-discrete approximations of conservative linear systems and the dissipativity of the numerical viscosity on the high frequency components. Our methods also allow to deal directly with stabilization properties of fully discrete approximation schemes without numerical viscosity, under a Suitable CFL type condition on the time and space discretization parameters. (c) 2008 Elsevier Masson SAS. All tights reserved.
APA:
Ervedoza, S., & Zuazua, E. (2009). Uniformly exponentially stable approximations for a class of damped systems. Journal De Mathematiques Pures Et Appliquees, 91(1), 20-48. https://doi.org/10.1016/j.matpur.2008.09.002
MLA:
Ervedoza, Sylvain, and Enrique Zuazua. "Uniformly exponentially stable approximations for a class of damped systems." Journal De Mathematiques Pures Et Appliquees 91.1 (2009): 20-48.
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