A reduced-order model for an efficient analysis of cardiovascular hemodynamics problems using multiscale approach is presented in this work. Starting from a patient-specific computational mesh obtained by medical imaging techniques, an analysis methodology based on a two-step automatic procedure is proposed. First a coupled 1D-3D Finite Element Simulation is performed and the results are used to adjust a reduced-order model of the 3D patient-specific area of interest. Then, this reduced-order model is coupled with the 1D model. In this way, three-dimensional effects are accounted for in the 1D model in a cost effective manner, allowing fast computation under different scenarios. The methodology proposed is validated using a patient-specific...
In this work a reduced-order computational framework for the study of haemodynamics in three-dimensi...
Numerical modeling of the human cardiovascular system (CVS) represents an active branch of research ...
In this work we study the blood dynamics in the pulmonary arteries by means of a 3D-0D geometric mul...
A reduced-order model for an efficient analysis of cardiovascular hemodynamics problems using multis...
When modelling the cardiovascular system, the effect of the vessel wall on the blood flow has great ...
We present a novel computational approach, based on a parametrized reduced-order model, for accelera...
When modeling the cardiovascular system, the effect of the vessel wall on the blood flow has great r...
This review paper addresses the so called geometric multiscale approach for the numerical simulation...
On the one hand the heterogeneity of the circulatory system requires the use of different models in ...
In this thesis, we deal with numerical simulation of blood flow in the context of congenital heart d...
The fluid structure interaction mechanism in vascular dynamics can be described by either 3D or 1D m...
A computational method of reduced complexity is developed for simulating vascular hemodynamics by co...
A computational method of reduced complexity is developed for simulating vascular hemodynamics by co...
In this work a reduced-order computational framework for the study of haemodynamics in three-dimensi...
Numerical modeling of the human cardiovascular system (CVS) represents an active branch of research ...
In this work we study the blood dynamics in the pulmonary arteries by means of a 3D-0D geometric mul...
A reduced-order model for an efficient analysis of cardiovascular hemodynamics problems using multis...
When modelling the cardiovascular system, the effect of the vessel wall on the blood flow has great ...
We present a novel computational approach, based on a parametrized reduced-order model, for accelera...
When modeling the cardiovascular system, the effect of the vessel wall on the blood flow has great r...
This review paper addresses the so called geometric multiscale approach for the numerical simulation...
On the one hand the heterogeneity of the circulatory system requires the use of different models in ...
In this thesis, we deal with numerical simulation of blood flow in the context of congenital heart d...
The fluid structure interaction mechanism in vascular dynamics can be described by either 3D or 1D m...
A computational method of reduced complexity is developed for simulating vascular hemodynamics by co...
A computational method of reduced complexity is developed for simulating vascular hemodynamics by co...
In this work a reduced-order computational framework for the study of haemodynamics in three-dimensi...
Numerical modeling of the human cardiovascular system (CVS) represents an active branch of research ...
In this work we study the blood dynamics in the pulmonary arteries by means of a 3D-0D geometric mul...