Viorel Barbu
Internal exponential stabilization for Navier-Stokes equations by means of finite-dimensional distributed controls.
Чт, 02/11/2010 - 16:01 — SomNambulAuthors: Viorel Barbu, Sergio S. Rodrigues, Armen Shirikyan
Subjects: Optimization and Control
AbstractWe consider the Navier-Stokes system in a bounded domain with a smooth
boundary. Given a sufficiently regular global solution, we construct a
finite-dimensional feedback control that is supported by a given open set and
stabilizes the linearized equation. The proof of this fact is based on a
truncated observability inequality, the regularizing property for the
linearized equation, and some standard techniques of the optimal control
theory. We then show that the control constructed for the linear problem
stabilizes locally also the full Navier-Stokes system.Kolmogorov equation associated to the stochastic reflection problem on a smooth convex set of a Hilbert space.
Пнд, 08/31/2009 - 17:16 — SomNambulAuthors: Viorel Barbu, Giuseppe Da Prato, Luciano Tubaro
Subjects: Probability
AbstractWe consider the stochastic reflection problem associated with a self-adjoint
operator $A$ and a cylindrical Wiener process on a convex set $K$ with nonempty
interior and regular boundary $\Sigma$ in a Hilbert space $H$. We prove the
existence and uniqueness of a smooth solution for the corresponding elliptic
infinite-dimensional Kolmogorov equation with Neumann boundary condition on
$\Sigma$.Strong solutions for stochastic porous media equations with jumps.
Пт, 08/28/2009 - 23:56 — SomNambulAuthors: Viorel Barbu, Carlo Marinelli
Subjects: Analysis of PDEs
AbstractWe prove global well-posedness in the strong sense for stochastic generalized
porous media equations driven by square integrable martingales with stationary
independent increments.Probabilistic representation for solutions of an irregular porous media type equation: the degenerate case.
Чт, 08/20/2009 - 23:06 — SomNambulAuthors: Viorel Barbu, Michael Roeckner, Francesco Russo
Subjects: Probability
AbstractWe consider a possibly degenerate porous media type equation over all of
$\R^d$ with $d = 1$, with monotone discontinuous coefficients with linear
growth and prove a probabilistic representation of its solution in terms of an
associated microscopic diffusion. This equation is motivated by some singular
behaviour arising in complex self-organized critical systems. The main idea
consists in approximating the equation by equations with monotone
non-degenerate coefficients and deriving some new analytical properties of the
solution.
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