| Popis: |
It is known that the linear Stokes-Lame system can be stabilized by a boundary feedback in the form of a dissipative velocity matching on the common interface [ 5 ]. Here we consider feedback stabilization for a generalized linear fluid-elasticity interaction, where the matching conditions on the interface incorporate the curvature of the common boundary and thus take into account the geometry of the problem. Such a coupled system is semigroup well-posed on the natural finite energy space [ 13 ], however, the system is not dissipative to begin with, which represents a key departure from the feedback control analysis in [ 5 ]. We prove that a damped version of the general linear hydro-elasticity model is exponentially stable. First, such a result is given for boundary dissipation of the form used in [ 5 ]. This proof resolves a more complex version, compared to the classical case, of the weighted energy methods, and addresses the lack of over-determination in the associated unique continuation result. The second theorem demonstrates how assumptions can be relaxed if a viscous damping is added in the interior of the solid. |
