2016
DOI: 10.1090/mcom/3064
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Approximation of the controls for the beam equation with vanishing viscosity

Abstract: We consider a finite difference semi-discrete scheme for the approximation of the boundary controls of a 1-D equation modelling the transversal vibrations of a hinged beam. It is known that, due to the high frequency numerical spurious oscillations, the uniform (with respect to the mesh-size) controllability property of the semi-discrete model fails in the natural setting. Consequently, the convergence of the approximate controls corresponding to initial data in the finite energy space cannot be guaranteed. We… Show more

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Cited by 24 publications
(20 citation statements)
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“…More precisely, from the spectral analysis of the problem and the study of the corresponding observability inequality, two possibilities to ensure the convergence of the scheme have been proposed in [10]: by filtering out the spurious high frequencies or by adding an extra boundary control. An alternative method to ensure the uniform controllability result consists in adding a vanishing numerical viscosity and has been analyzed in [1].…”
Section: Introductionmentioning
confidence: 99%
“…More precisely, from the spectral analysis of the problem and the study of the corresponding observability inequality, two possibilities to ensure the convergence of the scheme have been proposed in [10]: by filtering out the spurious high frequencies or by adding an extra boundary control. An alternative method to ensure the uniform controllability result consists in adding a vanishing numerical viscosity and has been analyzed in [1].…”
Section: Introductionmentioning
confidence: 99%
“…We are able to obtain a uniformly bounded family of controls for the perturbed problem (8) with the property that any weak limit of it is a control for the continuous problem. More precisely, the following result holds (see Bugariu et al (2013)).…”
Section: Introductionmentioning
confidence: 87%
“…Many possibilities have been proposed to overcome this difficulty: a Tychonov regularization of the HUM cost functional (see [21,49]), a change of the numerical scheme (mixed finite elements [9], vanishing viscosity [6,32] and other type of finite difference schemes [37]), the introduction of non-uniform meshes ( [18,19]), an approximation of discrete controls [12] (which does not lead exactly the discrete solution to zero, but converges to an exact control of the continuous problem), and finally an appropriate filtering technique, introduced in [31] and notably used in [13,34,26] in the context of wave or beam equation, which consists in relaxing the control requirement by controlling only the low-frequency part of the solution. This later approach will be considered in this paper.…”
Section: Motivationmentioning
confidence: 99%