When modelling the cardiovascular system, the effect of the vessel wall on the blood flow has great relevance. Arterial vessels are complex living tissues and three-dimensional specific models have been proposed to represent their behaviour. The numerical simulation of the 3D-3D Fluid-Structure Interaction (FSI) coupled problem has high computational costs in terms of required time and memory storage. Even if many possible solutions have been explored to speed up the resolution of such problem, we are far from having a 3D-3D FSI model that can be solved quickly. In 3D-3D FSI models two of the main sources of complexity are represented by the domain motion and the coupling between the fluid and the structural part. Nevertheless, in many case...
Abstract Blood velocity and pressure fields in large arteries are greatly influenced by the deformab...
We consider the coupling between three-dimensional (3D) and one-dimensional (1D)fluidstructure inter...
The focus of this thesis is on numerical modeling of fluid-structure interaction (FSI) problems wit...
When modelling the cardiovascular system, the effect of the vessel wall on the blood flow has great ...
When modeling the cardiovascular system, the effect of the vessel wall on the blood flow has great r...
Several models exist for the simulation of vascular flows; they span from simple circuit models to f...
Interest in patient-specific blood-flow circulation modeling has increased substantially in recent y...
Interest in patient-specific blood-flow circulation modeling has increased substantially in recent y...
The fluid structure interaction mechanism in vascular dynamics can be described by either 3D or 1D m...
This paper deals with fast simulations of the hemodynamics in large arteries by considering a reduce...
The blood flow in arterial trees in the cardiovascular system can be simulated with the help of diff...
Blood velocity and pressure fields in large arteries are greatly influenced by the deformability of ...
We consider the coupling between three-dimensional (3D) and one-dimensional (1D) fluid-structure int...
The blood flow in arterial trees in the cardiovascular system can be simulated with the help of diff...
Abstract Blood velocity and pressure fields in large arteries are greatly influenced by the deformab...
We consider the coupling between three-dimensional (3D) and one-dimensional (1D)fluidstructure inter...
The focus of this thesis is on numerical modeling of fluid-structure interaction (FSI) problems wit...
When modelling the cardiovascular system, the effect of the vessel wall on the blood flow has great ...
When modeling the cardiovascular system, the effect of the vessel wall on the blood flow has great r...
Several models exist for the simulation of vascular flows; they span from simple circuit models to f...
Interest in patient-specific blood-flow circulation modeling has increased substantially in recent y...
Interest in patient-specific blood-flow circulation modeling has increased substantially in recent y...
The fluid structure interaction mechanism in vascular dynamics can be described by either 3D or 1D m...
This paper deals with fast simulations of the hemodynamics in large arteries by considering a reduce...
The blood flow in arterial trees in the cardiovascular system can be simulated with the help of diff...
Blood velocity and pressure fields in large arteries are greatly influenced by the deformability of ...
We consider the coupling between three-dimensional (3D) and one-dimensional (1D) fluid-structure int...
The blood flow in arterial trees in the cardiovascular system can be simulated with the help of diff...
Abstract Blood velocity and pressure fields in large arteries are greatly influenced by the deformab...
We consider the coupling between three-dimensional (3D) and one-dimensional (1D)fluidstructure inter...
The focus of this thesis is on numerical modeling of fluid-structure interaction (FSI) problems wit...