In this work, we propose a Robin–Robin preconditioner combined with Krylov iterations for the solution of the interface system arising in fluid–structure interaction (FSI) problems. It can be seen as a partitioned FSI procedure and in this respect it generalizes the ideas introduced in [S. Badia, F. Nobile, C. Vergara, J. Comput. Phys. 227 (2008) 7027–7051]. We analyze the convergence of GMRES iterations with the Robin–Robin preconditioner on a model problem and compare its efficiency with some existing algorithms. The method is shown to be very efficient for many challenging fluid–structure interaction problems, such as those characterized by a large added-mass effect or by enclosed fluids. In particular, the possibility to solve balloon-t...
In the solution of Fluid-Structure Interaction problems, partitioned pro-cedures are modular algorit...
Subiteration forms the basic iterative method for solving the aggregated equations in fluid-structur...
The basic subiteration method for solving fluid–structure interaction problems consists of an iterat...
In this work, we propose a Robin–Robin preconditioner combined with Krylov iterations for the soluti...
In this work we propose a Robin-Robin preconditioner combined with Krylov iterations for the solutio...
of the interface system arising in fluid–structure interaction (FSI) problems. It can be seen as a p...
The solution of the Fluid-Structure Interation (FSI) problem, which describes any physical phenomeno...
In the solution of fluid-structure interaction (FSI) problems, partitioned procedures are modular al...
In this article we design new partitioned procedures for fluid–structure interaction problems, based...
In this article we design new partitioned procedures for fluid-structure interaction problems, based...
In the solution of Fluid-Structure Interaction problems, partitioned procedures are modular algorith...
In this article we address the numerical simulation of fluid-structure interaction (FSI) problems fe...
We consider two loosely coupled schemes for the solution of the fluid–structure interaction problem ...
In the solution of Fluid-Structure Interaction problems, partitioned pro-cedures are modular algorit...
Subiteration forms the basic iterative method for solving the aggregated equations in fluid-structur...
The basic subiteration method for solving fluid–structure interaction problems consists of an iterat...
In this work, we propose a Robin–Robin preconditioner combined with Krylov iterations for the soluti...
In this work we propose a Robin-Robin preconditioner combined with Krylov iterations for the solutio...
of the interface system arising in fluid–structure interaction (FSI) problems. It can be seen as a p...
The solution of the Fluid-Structure Interation (FSI) problem, which describes any physical phenomeno...
In the solution of fluid-structure interaction (FSI) problems, partitioned procedures are modular al...
In this article we design new partitioned procedures for fluid–structure interaction problems, based...
In this article we design new partitioned procedures for fluid-structure interaction problems, based...
In the solution of Fluid-Structure Interaction problems, partitioned procedures are modular algorith...
In this article we address the numerical simulation of fluid-structure interaction (FSI) problems fe...
We consider two loosely coupled schemes for the solution of the fluid–structure interaction problem ...
In the solution of Fluid-Structure Interaction problems, partitioned pro-cedures are modular algorit...
Subiteration forms the basic iterative method for solving the aggregated equations in fluid-structur...
The basic subiteration method for solving fluid–structure interaction problems consists of an iterat...