In this article, we study the global controllability properties of aone-dimensional semilinear heat equation with sublinear reaction term, governed in a bounded domain by internal lumped controls. We prove thatit is possible to exactly control any finite dimensional portion of its solution (when expanded along the sequence of the eigenfunctions of the associated Laplacian), provided that the truncated linear equationis approximately controllable in L^2 (0,1). We also describe a certain topology (weaker than L^2 (0,1)) in which this system is, in fact, globally approximately controllable at any positive time. Some extensions to the case of several dimensions are also given
The exact distributed controllability of the semilinear heat equation ∂ty − ∆y + f (y) = v 1ω posed ...
Abstract. The results of this paper concern exact controllability to the trajectories for a coupled ...
Abstract. This paper is concerned with the global exact controllability of the semilinear heat equat...
Global controllability properties for the semilinear heat equation with superlinear term. A.Y. KHAPA...
Abstract. We consider the one dimensional semilinear reaction-diusion equation, governed in Ω = (0; ...
We prove the approximate controllability of the semilinear heat equation in R N, when the nonlinear ...
AbstractUsing the Browder–Minty surjective theorem from the theory of monotone operators, we conside...
AbstractThis paper is concerned with sufficient conditions for approximate controllability in L2(Ω) ...
We prove the approximate controllability of the semilinear heat equation in RN, when the nonlinear t...
We study the global approximate controllability of the one dimensional semilinear convection-diffus...
Abstract. We study the global approximate controllability of the one dimensional semilinear convecti...
We consider the one dimensional semilinear reaction-diffusion equation, governed in Ω = (0,1) by co...
We investigate finite approximate controllability for semilinear heat equation in noncylindrical dom...
This paper is concerned with the global exact controllability of the semilinear heat equation (with ...
AbstractIt is well known nowadays that a rather general semilinear parabolic equation, governed in a...
The exact distributed controllability of the semilinear heat equation ∂ty − ∆y + f (y) = v 1ω posed ...
Abstract. The results of this paper concern exact controllability to the trajectories for a coupled ...
Abstract. This paper is concerned with the global exact controllability of the semilinear heat equat...
Global controllability properties for the semilinear heat equation with superlinear term. A.Y. KHAPA...
Abstract. We consider the one dimensional semilinear reaction-diusion equation, governed in Ω = (0; ...
We prove the approximate controllability of the semilinear heat equation in R N, when the nonlinear ...
AbstractUsing the Browder–Minty surjective theorem from the theory of monotone operators, we conside...
AbstractThis paper is concerned with sufficient conditions for approximate controllability in L2(Ω) ...
We prove the approximate controllability of the semilinear heat equation in RN, when the nonlinear t...
We study the global approximate controllability of the one dimensional semilinear convection-diffus...
Abstract. We study the global approximate controllability of the one dimensional semilinear convecti...
We consider the one dimensional semilinear reaction-diffusion equation, governed in Ω = (0,1) by co...
We investigate finite approximate controllability for semilinear heat equation in noncylindrical dom...
This paper is concerned with the global exact controllability of the semilinear heat equation (with ...
AbstractIt is well known nowadays that a rather general semilinear parabolic equation, governed in a...
The exact distributed controllability of the semilinear heat equation ∂ty − ∆y + f (y) = v 1ω posed ...
Abstract. The results of this paper concern exact controllability to the trajectories for a coupled ...
Abstract. This paper is concerned with the global exact controllability of the semilinear heat equat...