The ICDD method [15, 16] is here proposed to solve the coupling between Stokes and Darcy equations. According to this approach, the problem is formulated as an optimal control problem whose control variables are the traces of the velocity and the pressure on the internal boundaries of the subdomains that provide an overlapping decomposition of the original computational domain. A theoretical analysis is carried out and the well-posedness of the problem is proved under certain assumptions on both the geometry and the model parameters. An efficient solution algorithm is proposed, and several numerical tests are implemented. Our results show the accuracy of the ICDD method, its computational efficiency and robustness with respect to the differ...
We present a mathematical and numerical model for coupled subsurface and surface flows based on coup...
Fluid flows in coupled systems consisting of a free-flow region and the adjacent porous medium appea...
We consider the interaction between a free flowing fluid and a porous medium flow, where the free fl...
The ICDD method [15, 16] is here proposed to solve the coupling between Stokes and Darcy equations. ...
The interface control domain decomposition (ICDD) method of Discacciati, Gervasio, and Quarteroni [S...
The interface control domain decomposition (ICDD) method of Discacciati, Gervasio, and Quarteroni [S...
We study the Interface Control Domain Decomposition (ICDD) for the Stokes equation. We reformulate t...
This paper is concerned with the solution of heterogeneous problems by the interface control domain ...
In this paper we consider a coupled system made of the Stokes and Darcy equations, and we propose so...
This paper is concerned with the solution of heterogeneous problems by the interface control domain ...
AbstractA non-overlapping domain decomposition method is developed for coupled Stokes-Darcy flows in...
A non-overlapping domain decomposition method is presented to solve a coupled Stokes-Darcy flow prob...
We introduce a differential system based on the coupling of the (Navier) Stokes equations and the Da...
We present a mathematical and numerical model for coupled subsurface and surface flows based on coup...
Fluid flows in coupled systems consisting of a free-flow region and the adjacent porous medium appea...
We consider the interaction between a free flowing fluid and a porous medium flow, where the free fl...
The ICDD method [15, 16] is here proposed to solve the coupling between Stokes and Darcy equations. ...
The interface control domain decomposition (ICDD) method of Discacciati, Gervasio, and Quarteroni [S...
The interface control domain decomposition (ICDD) method of Discacciati, Gervasio, and Quarteroni [S...
We study the Interface Control Domain Decomposition (ICDD) for the Stokes equation. We reformulate t...
This paper is concerned with the solution of heterogeneous problems by the interface control domain ...
In this paper we consider a coupled system made of the Stokes and Darcy equations, and we propose so...
This paper is concerned with the solution of heterogeneous problems by the interface control domain ...
AbstractA non-overlapping domain decomposition method is developed for coupled Stokes-Darcy flows in...
A non-overlapping domain decomposition method is presented to solve a coupled Stokes-Darcy flow prob...
We introduce a differential system based on the coupling of the (Navier) Stokes equations and the Da...
We present a mathematical and numerical model for coupled subsurface and surface flows based on coup...
Fluid flows in coupled systems consisting of a free-flow region and the adjacent porous medium appea...
We consider the interaction between a free flowing fluid and a porous medium flow, where the free fl...