310 research outputs found

    LpL^p-LqL^q Maximal Regularity for some Operators Associated with Linearized Incompressible Fluid-Rigid Body Problems

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    We study an unbounded operator arising naturally after linearizing the system modelling the motion of a rigid body in a viscous incompressible fluid. We show that this operator is R\mathcal{R} sectorial in LqL^q for every qāˆˆ(1,āˆž)q\in (1,\infty), thus it has the maximal LpL^p-LqL^q regularity property. Moreover, we show that the generated semigroup is exponentially stable with respect to the LqL^q norm. Finally, we use the results to prove the global existence for small initial data, in an LpL^p-LqL^q setting, for the original nonlinear problem

    How to get a conservative well-posed linear system out of thin air. Part II. Controllability and stability

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    Unconditionnally stable scheme for Riccati equation

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    We present a numerical scheme for the resolution of matrix Riccati equation used in control problems. The scheme is unconditionnally stable and the solution is definite positive at each time step of the resolution. We prove the convergence in the scalar case and present several numerical experiments for classical test cases.Comment: 11 page

    Perturbations of time optimal control problems for a class of abstract parabolic systems

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    In this work we study the asymptotic behavior of the solutions of a class of abstract parabolic time optimal control problems when the generators converge, in an appropriate sense, to a given strictly negative operator. Our main application to PDEs systems concerns the behavior of optimal time and of the associated optimal controls for parabolic equations with highly oscillating coefficients, as we encounter in homogenization theory. Our main results assert that, provided that the target is a closed ball centered at the origin and of positive radius, the solutions of the time optimal control problems for the systems with oscillating coefficients converge, in the usual norms, to the solution of the corresponding problem for the homogenized system. In order to prove our main theorem, we provide several new results, which could be of a broader interest, on time and norm optimal control problems

    Simultaneous exact controllability and some applications

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    Controllability and positivity constraints in population dynamics with age structuring and diffusion

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    This Accepted Manuscript will be available for reuse under a CC BY-NC-ND licence after 24 months of embargo periodIn this article, we study the null controllability of a linear system coming from a population dynamics model with age structuring and spatial diffusion (of Lotkaā€“McKendrick type). The control is localized in the space variable as well as with respect to the age. The first novelty we bring in is that the age interval in which the control needs to be active can be arbitrarily small and does not need to contain a neighbourhood of 0. The second one is that we prove that the whole population can be steered into zero in a uniform time, without, as in the existing literature, excluding some interval of low ages. Moreover, we improve the existing estimates of the controllability time and we show that our estimates are sharp, at least when the control is active for very low ages. Finally, we show that the system can be steered between two positive steady states by controls preserving the positivity of the state trajectory. The method of proof, combining final-state observability estimates with the use of characteristics and with Lāˆž estimates of the associated semigroup, avoids the explicit use of parabolic Carleman estimatesThe research of Enrique Zuazua was supported by the Advanced Grant DyCon (Dynamical Control) of the European Research Council Executive Agency (ERC), the MTM2014-52347 and MTM2017-92996 Grants of the MINECO (Spain) and the ICON project of the French ANR-16-ACHN-001
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