In this paper a new shape optimization algorithm is presented. As a model application we consider state problems related to fluid mechanics, namely the Navier-Stokes equations for viscous incompressible fluids. The general approach to the problem is described. Next, transformations to classical optimal control problems are presented. Then, the dynamic programming approach is used and sufficient conditions for the shape optimization problem are given. A new numerical method to find the approximate value function is developed
This thesis deals with theoretical and numerical aspects of shape optimization for flow problems. In...
The purpose of this study is to obtain an optimal shape of a body located in the incompressible visc...
In this work, we propose both a theoretical framework and a numerical method to tackle shape op- tim...
In this paper a new shape optimization algorithm is presented. As a model application we consider st...
Part 6: Shape and Structural OptimizationInternational audienceIn this paper we describe a novel fra...
Part 6: Shape and Structural OptimizationInternational audienceThe paper aims to illustrate the algo...
This work discusses geometric optimization problems governed by stationary Navier-Stokes equations. ...
In this paper we will present some recent advances in the numerical approximation of two classical p...
summary:Shape optimization problems are optimal design problems in which the shape of the boundary p...
In this article we propose a scalable shape optimization algorithm which is tailored for large scale...
When designing a new car or a plane, engineers need to solve the Navier-Stokes equations to understa...
In this work, we propose both a theoretical framework and a numerical method to tackle shape optimiz...
International audienceIn this paper, we are interested in a shape optimization problem for a fluid-s...
In this work, we propose both a theoretical framework and a numerical method to tackle shape optimiz...
The purpose of this study is to obtain an optimal shape of a body located in the incompress-ible vis...
This thesis deals with theoretical and numerical aspects of shape optimization for flow problems. In...
The purpose of this study is to obtain an optimal shape of a body located in the incompressible visc...
In this work, we propose both a theoretical framework and a numerical method to tackle shape op- tim...
In this paper a new shape optimization algorithm is presented. As a model application we consider st...
Part 6: Shape and Structural OptimizationInternational audienceIn this paper we describe a novel fra...
Part 6: Shape and Structural OptimizationInternational audienceThe paper aims to illustrate the algo...
This work discusses geometric optimization problems governed by stationary Navier-Stokes equations. ...
In this paper we will present some recent advances in the numerical approximation of two classical p...
summary:Shape optimization problems are optimal design problems in which the shape of the boundary p...
In this article we propose a scalable shape optimization algorithm which is tailored for large scale...
When designing a new car or a plane, engineers need to solve the Navier-Stokes equations to understa...
In this work, we propose both a theoretical framework and a numerical method to tackle shape optimiz...
International audienceIn this paper, we are interested in a shape optimization problem for a fluid-s...
In this work, we propose both a theoretical framework and a numerical method to tackle shape optimiz...
The purpose of this study is to obtain an optimal shape of a body located in the incompress-ible vis...
This thesis deals with theoretical and numerical aspects of shape optimization for flow problems. In...
The purpose of this study is to obtain an optimal shape of a body located in the incompressible visc...
In this work, we propose both a theoretical framework and a numerical method to tackle shape op- tim...