El Mustapha Ait Ben Hassi scite author profile

In this work, we study the stable determination of four space-dependent coefficients appearing in a coupled semilinear parabolic system with variable diffusion matrices subject to dynamic boundary conditions which couple intern-boundary phenomena. We prove a Lipschitz stability result for interior and boundary potentials by means of only one observation component, localized in any arbitrary open subset of the physical domain. The proof mainly relies on some new Carleman estimates for dynamic boundary conditions of surface diffusion type.

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An inverse problem of radiative potentials and initial temperatures in parabolic equations with dynamic boundary conditions

Hassi

Chorfi

Maniar

2021

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We study an inverse problem involving the restoration of two radiative potentials, not necessarily smooth, simultaneously with initial temperatures in parabolic equations with dynamic boundary conditions. We prove a Lipschitz stability estimate for the relevant potentials using a recent Carleman estimate, and a logarithmic stability result for the initial temperatures by a logarithmic convexity method, based on observations in an arbitrary subdomain.

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Null controllability of degenerate parabolic cascade systems

Hassi¹,

Khodja²,

Hajjaj³

et al. 2011

Port. Math.

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In this paper, we study the null controllability of degenerate semilinear cascade parabolic systems with one control force. The key tool is the Carleman estimates developed recently for degenerate one dimension parabolic equations. We develop a Carleman estimate for these systems and then an observability inequality for the linear adjoint system. We conclude by linearization and fixed point arguments.

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Identification of source terms in heat equation with dynamic boundary conditions

Hassi

Chorfi

Maniar

2021

Math Methods in App Sciences

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We study an inverse parabolic problem of identifying two source terms in heat equation with dynamic boundary conditions from a final time overdetermination data. Using a weak solution approach by Hasanov, the associated cost functional is analyzed, especially a gradient formula of the functional is proved and given in terms of the solution of an adjoint problem. Next, the existence and uniqueness of a quasi-solution are also investigated. Finally, the numerical reconstruction of some heat sources in a 1-D equation is presented to show the efficiency of the proposed algorithm.

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Lipschitz stability for an inverse source problem in anisotropic parabolic equations with dynamic boundary conditions

Hassi¹,

Chorfi²,

Maniar³

et al. 2021

EECT

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