Litcius/Paper detail

Convergence Results for Optimal Control Problems Governed by Elliptic Quasivariational Inequalities

Mircea Sofonea, Domingo A. Tarzia

2020Numerical Functional Analysis and Optimization11 citationsDOIOpen Access PDF

Abstract

We consider an optimal control problem Q governed by an elliptic quasivariational inequality with unilateral constraints. We associate to Q a new optimal control problem Q˜, obtained by perturbing the state inequality (including the set of constraints and the nonlinear operator) and the cost functional, as well. Then, we provide sufficient conditions which guarantee the convergence of solutions of Problem Q˜ to a solution of Problem Q. The proofs are based on convergence results for elliptic quasivariational inequalities, obtained by using arguments of compactness, lower semicontinuity, monotonicity, penalty and various estimates. Finally, we illustrate the use of the abstract convergence results in the study of optimal control associated with two boundary value problems. The first one describes the equilibrium of an elastic body in frictional contact with an obstacle, the so-called foundation. The process is static and the contact is modeled with normal compliance and unilateral constraint, associated to a version of Coulomb’s law of dry friction. The second one describes a stationary heat transfer problem with unilateral constraints. For the two problems we prove existence, uniqueness and convergence results together with the corresponding physical interpretation.

Topics & Concepts

MathematicsUniquenessConvergence (economics)Optimal controlMathematical proofNonlinear systemApplied mathematicsBoundary (topology)Boundary value problemMathematical optimizationVariational inequalityElliptic curveState (computer science)Weak convergenceSet (abstract data type)Existence theoremMathematical analysisControl (management)Unilateral contactTransfer (computing)Domain (mathematical analysis)Weak solutionConvergence problemProcess (computing)Contact Mechanics and Variational InequalitiesMechanical stress and fatigue analysisElasticity and Material Modeling