Steady Navier–Stokes equations with regularized directional do-nothing boundary condition: optimal boundary control for a velocity tracking problem

01/02/2025

We consider the steady Navier–Stokes equations with mixed boundary conditions, where a regularized directional do-nothing (RDDN) condition is defined on the Neumann boundary portion. An auxiliary Stokes reference flow, which also works as a lifting of the inhomogeneous Dirichlet boundary values, is used to define the RDDN condition. Our aim is to study the minimization of a velocity tracking cost functional with controls localized on a part of the boundary. We prove the existence of a solution for this optimal control problem and derive the corresponding first order necessary optimality conditions in terms of dual variables. All results are obtained under appropriate assumptions on the size of the data and the controls, which, however, are less restrictive when compared with the case of the classical do-nothing outflow condition. This is further confirmed by the numerical examples presented, which include scenarios where only noisy data is available.

Autores da comunidade :

• 

  A

  Ana Leonor Mestre Vicente Silvestre

  ist13382

  Afiliações e fontes

  IST > CEMAT

  Centro de Matemática Computacional e Estocástica

  IST > DM

  Departamento de Matemática

• 

  J

  Jorge Filipe Duarte Tiago

  ist90590

  Afiliações e fontes

  IST > CEMAT

  Centro de Matemática Computacional e Estocástica

  IST > DM

  Departamento de Matemática

  De: scopus

  ID: 2-s2.0-85217507893

Springer Nature

https://link.springer.com/article/10.1007/s00245-024-10216-4

Applied Mathematics and Optimization

91

1

10.1007/s00245-024-10216-4

mathematics - Matemática

por - Português

Entidade financiadora da bolsa/projeto

Fundação para a Ciência e a Tecnologia

Identificador da Entidade Financiadora: UIDB/04621/2020