Approximate controllability of linearized shape-dependent operators for flow problems

Approximate controllability of linearized shape-dependent operators for flow problems

We study the controllability of linearized shape-dependent operators for flow problems. The first operator is a mapping from the shape of the computational domain to the tangential wall velocity of the potential flow problem and the second operator maps to the wall shear stress of the Stokes problem...

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Veröffentlicht in:ESAIM. Control, optimisation and calculus of variations optimisation and calculus of variations, 2017-07, Vol.23 (3), p.751-771
Hauptverfasser: Leithäuser, C., Pinnau, R., Feßler, R.
Format: Artikel
Sprache:eng
Schlagworte:
35Q35
35R30
49Q10
76B75
93B05
Computational fluid dynamics
Controllability
Controllablility
Deformation
inverse problem
Linearization
Mapping
Operators (mathematics)
partial differential equation
Potential flow
shape derivative
shape optimization
shape-dependent operator
Wall shear stresses
Well posed problems
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Beschreibung
Zusammenfassung:We study the controllability of linearized shape-dependent operators for flow problems. The first operator is a mapping from the shape of the computational domain to the tangential wall velocity of the potential flow problem and the second operator maps to the wall shear stress of the Stokes problem. We derive linearizations of these operators, provide their well-posedness and finally show approximate controllability. The controllability of the linearization shows in what directions the observable can be changed by applying infinitesimal shape deformations.
ISSN:1292-8119
1262-3377
DOI:10.1051/cocv/2016012