We consider optimization and optimal control problems subject to free and moving boundary nonlinear fluid-elasticity interactions. As the coupled fluid-structure state is the solution of a system of partial differential equations that are coupled through continuity relations on velocities and normal stress tensors, defined on the free and moving interface, the investigation (existence of optimal controls, sensitivity equations, necessary optimality conditions, etc.) is heavily dependent on the geometry of the problem, and falls into moving shape analysis framework.Non UBCUnreviewedAuthor affiliation: NC State UniversityFacult
International audienceIn this paper, we are interested in a shape optimization problem for a fluid-s...
The first fourth chapters concern steady fluid-structure interaction. We study unsteady interaction ...
Many problems in cardiovascular modelling can be expressed as fluid-structure interaction (FSI) prob...
We focus on fluid-structure interactions (FSI) described by incompressible, viscous fluids coupled w...
Our goal is to minimize the fluid vorticity in the case of an elastic body moving and deforming insi...
Fluid structure interaction comprising of an elastic body immersed in the moving fluid is considered...
Problems involving the evolution of two- and three-dimensional domains arise in many areas of scienc...
Authors: IRENA LASIECKA, KATARZYNA SZULC, ANTONI ZOCHOWSKI We consider a coupled system of the li...
none2noFluid–structure interaction (FSI) systems consist of a fluid which flows and deforms one or m...
We consider a coupled system of a linearly elastic body immersed in a flowing fluid which is modeled...
In the last years adjoint optimal control has been increasingly used for design and simulations in s...
This paper deals with boundary optimal control for the energy equation coupled with Navier-Stokes sy...
We consider a model of fluidstructure interaction in a bounded domain Ω∈Rn, n=2, where Ω is comprise...
none3noThis paper deals with boundary optimal control problems for the temperature and Navier-Stokes...
We consider a model of fluid-structure interaction in a bounded domain Ω ε ℝ2 where Ω is comprised o...
International audienceIn this paper, we are interested in a shape optimization problem for a fluid-s...
The first fourth chapters concern steady fluid-structure interaction. We study unsteady interaction ...
Many problems in cardiovascular modelling can be expressed as fluid-structure interaction (FSI) prob...
We focus on fluid-structure interactions (FSI) described by incompressible, viscous fluids coupled w...
Our goal is to minimize the fluid vorticity in the case of an elastic body moving and deforming insi...
Fluid structure interaction comprising of an elastic body immersed in the moving fluid is considered...
Problems involving the evolution of two- and three-dimensional domains arise in many areas of scienc...
Authors: IRENA LASIECKA, KATARZYNA SZULC, ANTONI ZOCHOWSKI We consider a coupled system of the li...
none2noFluid–structure interaction (FSI) systems consist of a fluid which flows and deforms one or m...
We consider a coupled system of a linearly elastic body immersed in a flowing fluid which is modeled...
In the last years adjoint optimal control has been increasingly used for design and simulations in s...
This paper deals with boundary optimal control for the energy equation coupled with Navier-Stokes sy...
We consider a model of fluidstructure interaction in a bounded domain Ω∈Rn, n=2, where Ω is comprise...
none3noThis paper deals with boundary optimal control problems for the temperature and Navier-Stokes...
We consider a model of fluid-structure interaction in a bounded domain Ω ε ℝ2 where Ω is comprised o...
International audienceIn this paper, we are interested in a shape optimization problem for a fluid-s...
The first fourth chapters concern steady fluid-structure interaction. We study unsteady interaction ...
Many problems in cardiovascular modelling can be expressed as fluid-structure interaction (FSI) prob...