Abstract
We consider an optimal control problem associated to Dirichlet boundary value problem for non-linear elliptic equation on a bounded domain $Ω$ . We take the coefficient $u(x)∈ L^∞(Ω)\cap BV(Ω)$ in the main part of the non-linear differential operator as a control and in the linear part of differential operator we consider coefficients to be unbounded skew-symmetric matrix $A_{skew}∈ L^q(Ω;\mathbb{S}^N_{skew})$ . We show that, in spite of unboundedness of the non-linear differential operator, the considered Dirichlet problem admits at least one weak solution and the corresponding OCP is well-possed and solvable. At the same time, optimal solutions to such problem can inherit a singular character of the matrices $A^{skew}$ . We indicate two types of optimal solutions to the above problem and show that one of them can be attained by optimal solutions of regularized problems for coercive elliptic equations with bounded coefficients, using the two-parametric regularization of the initial OCP.
Highlights
Optimal control in coefficients for partial differential equations is a classical subject initiated by Lurie [25], Lions [23, 24], and Pironneau [29]
We consider an optimal control problem associated to Dirichlet boundary value problem for non-linear elliptic equation on a bounded domain Ω
In spite of unboundedness of the nonlinear differential operator, the considered Dirichlet problem admits at least one weak solution and the corresponding optimal control problem (OCP) is well-possed and solvable
Summary
National Mining University Department of System Analysis and Control Yavornitskii av., 19, 49005 Dnipro, Ukraine and Institute for Applied System Analysis National Academy of Sciences and Ministry of Education and Science of Ukraine Peremogy av., 37/35, IASA, 03056 Kyiv, Ukraine
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