We introduce the Reduced Immersed Method (RIM) for the real-time simulation of two-way coupled incompressible fluids and elastic solids and the interaction of multiple deformables with (self-)collisions. Our framework is based on a novel discretization of the immersed boundary equations of motion, which model fluid and deformables as a single incompressible medium and their interaction as a unified system on a fixed domain combining Eulerian and Lagrangian terms. One advantage for real-time simulations resulting from this modeling is that two-way coupling phenomena can be faithfully simulated while avoiding costly calculations such as tracking the deforming fluid-solid interfaces and the associated fluid boundary conditions. Our discretizat...
An immersed finite element method for solid–fluid interaction is presented with application focus on...
An efficient 3D Immersed Boundary solver to simulate fully coupled fluid-solid interaction with 6 de...
International audienceWe present an efficient and stable method for simulating the two-way coupling ...
We introduce the Reduced Immersed Method (RIM) for the real-time simulation of two-way coupled incom...
We introduce the Reduced Immersed Method (RIM) for the real-time simulation of two-way coupled incom...
A new fluid-structure interaction approach for bio-inspired regime is presented. In this method, the...
This paper presents a method for simulating the two-way interaction between fluids and deformable so...
This paper proposes a new Fluid-Structure Interaction immersed computational framework. The coupling...
We present the implementation of a solution scheme for fluid-structure interaction prob-lems via the...
A novel immersed boundary method is introduced for simulating the fluid-structure interaction proble...
A new method for studying the interaction between an elastic object and a fluid has been developed. ...
We present an immersed-boundary method for flows around either an arbitrary body undergoing prescrib...
In this paper we show and discuss how the deformation dynamics of closed liquid–liquid interfaces (f...
We present an efficient and stable method for simulating the two-way coupling of incompressible flui...
In this paper, we propose an immersed solid system (ISS) method to efficiently treat the fluid-struc...
An immersed finite element method for solid–fluid interaction is presented with application focus on...
An efficient 3D Immersed Boundary solver to simulate fully coupled fluid-solid interaction with 6 de...
International audienceWe present an efficient and stable method for simulating the two-way coupling ...
We introduce the Reduced Immersed Method (RIM) for the real-time simulation of two-way coupled incom...
We introduce the Reduced Immersed Method (RIM) for the real-time simulation of two-way coupled incom...
A new fluid-structure interaction approach for bio-inspired regime is presented. In this method, the...
This paper presents a method for simulating the two-way interaction between fluids and deformable so...
This paper proposes a new Fluid-Structure Interaction immersed computational framework. The coupling...
We present the implementation of a solution scheme for fluid-structure interaction prob-lems via the...
A novel immersed boundary method is introduced for simulating the fluid-structure interaction proble...
A new method for studying the interaction between an elastic object and a fluid has been developed. ...
We present an immersed-boundary method for flows around either an arbitrary body undergoing prescrib...
In this paper we show and discuss how the deformation dynamics of closed liquid–liquid interfaces (f...
We present an efficient and stable method for simulating the two-way coupling of incompressible flui...
In this paper, we propose an immersed solid system (ISS) method to efficiently treat the fluid-struc...
An immersed finite element method for solid–fluid interaction is presented with application focus on...
An efficient 3D Immersed Boundary solver to simulate fully coupled fluid-solid interaction with 6 de...
International audienceWe present an efficient and stable method for simulating the two-way coupling ...