We suggest a fictitious domain method, based on the Nitsche XFEM method of (Comput. Meth. Appl. Mech. Engrg 2002; 191: 5537-5552), that employs a band of elements adjacent to the boundary. In contrast, the classical fictitious domain method uses Lagrange multipliers on a line (surface) where the boundary condition is to be enforced. The idea can be seen as an extension of the Chimera method of (ESAIM: Math. Model Numer. Anal. 2003; 37: 495-514), but with a hierarchical representation of the discontinuous solution field. The hierarchical formulation is better suited for moving fictitious boundaries since the stiffness matrix of the underlying structured mesh can be retained during the computations. Our technique allows for optimal convergenc...
In this paper, we describe a computational model for the simulation of fluid structure interaction p...
Simulation of real flows and heat transfers often implies obstacles or interfaces of complex shapes....
In the Fictitious Domain Method with Lagrange multiplier (FDM) the physical domain is embedded into...
We suggest a fictitious domain method, based on the Nitsche XFEM method of (Comput. Meth. Appl. Mech...
Generating matching meshes for finite element analysis is not always a convenient choice, for instan...
We extend the classical Nitsche type weak boundary conditions to a fictitious domain setting. An add...
We propose a fictitious domain method where the mesh is cut by the boundary. The primal solution is ...
In this paper, we consider a fictitious domain approach based on a Nitsche type method without penal...
International audienceWe propose a new fictitious domain finite element method, well suited for elli...
Nous décrivons ici une méthodologie complète de simulation d'écoulements et de transferts thermiques...
The Chimera method was proposed to bypass the difficulty of generating general unstructured meshes f...
International audienceReduction of computational cost of solutions is a key issue for crack identifi...
A new numerical method based on fictitious domain methods for shape optimization problems governed b...
In this paper, we describe a computational model for the simulation of fluid structure interaction p...
Simulation of real flows and heat transfers often implies obstacles or interfaces of complex shapes....
In the Fictitious Domain Method with Lagrange multiplier (FDM) the physical domain is embedded into...
We suggest a fictitious domain method, based on the Nitsche XFEM method of (Comput. Meth. Appl. Mech...
Generating matching meshes for finite element analysis is not always a convenient choice, for instan...
We extend the classical Nitsche type weak boundary conditions to a fictitious domain setting. An add...
We propose a fictitious domain method where the mesh is cut by the boundary. The primal solution is ...
In this paper, we consider a fictitious domain approach based on a Nitsche type method without penal...
International audienceWe propose a new fictitious domain finite element method, well suited for elli...
Nous décrivons ici une méthodologie complète de simulation d'écoulements et de transferts thermiques...
The Chimera method was proposed to bypass the difficulty of generating general unstructured meshes f...
International audienceReduction of computational cost of solutions is a key issue for crack identifi...
A new numerical method based on fictitious domain methods for shape optimization problems governed b...
In this paper, we describe a computational model for the simulation of fluid structure interaction p...
Simulation of real flows and heat transfers often implies obstacles or interfaces of complex shapes....
In the Fictitious Domain Method with Lagrange multiplier (FDM) the physical domain is embedded into...