International audienceFor the numerical simulation of the circulatory system, geometrical multiscale models based on the coupling of systems of differential equations with different spatial dimensions are becoming common practice [L. Formaggia et al., Comput. Vis. Sci., 2 (1999), pp. 75-83, A. Quarteroni and A. Veneziani, Multiscale Model. Simul., 1 (2003), pp. 173-195, L. Formaggia et al., Comput. Methods Appl. Mech. Engrg., 191 (2001), pp. 561-582]. In this paper we address the mathematical analysis of a coupled multiscale system involving a zero-dimensional (0D) model, describing the global characteristics of the circulatory system, and a one-dimensional (1D) model giving the pressure propagation along a straight vessel. We provide a local...
A geometrical multiscale model for blood flow through an ideal left ventricle and the main arteries ...
In this paper we propose a method for coupling distributed and lumped models for the blood circulati...
AbstractWe consider a one-dimensional blood flow model suitable for larger arteries. It consists of ...
For the numerical simulation of the circulatory system, geometrical multiscale models based on the c...
In hemodynamics, local phenomena, such as the perturbation of flow pattern in a specific vascular re...
On the one hand the heterogeneity of the circulatory system requires the use of different models in ...
AbstractWe study a coupled system of ordinary differential equations and quasilinear hyperbolic part...
This review paper addresses the so called geometric multiscale approach for the numerical simulation...
In this paper we show how numerical solutions of human cardiovascular system may be devised by coupl...
This work is focused on the development of a geometrical multiscale framework for modelling the huma...
Over the past years, mathematical modelling and numerical simulation play a very important role in t...
In this paper we present a multiscale model for the analysis of fluid-structure interaction which co...
The blood flow in arterial trees in the cardiovascular system can be simulated with the help of diff...
The blood flow in arterial trees in the cardiovascular system can be simulated with the help of diff...
The fluid structure interaction mechanism in vascular dynamics can be described by either 3D or 1D m...
A geometrical multiscale model for blood flow through an ideal left ventricle and the main arteries ...
In this paper we propose a method for coupling distributed and lumped models for the blood circulati...
AbstractWe consider a one-dimensional blood flow model suitable for larger arteries. It consists of ...
For the numerical simulation of the circulatory system, geometrical multiscale models based on the c...
In hemodynamics, local phenomena, such as the perturbation of flow pattern in a specific vascular re...
On the one hand the heterogeneity of the circulatory system requires the use of different models in ...
AbstractWe study a coupled system of ordinary differential equations and quasilinear hyperbolic part...
This review paper addresses the so called geometric multiscale approach for the numerical simulation...
In this paper we show how numerical solutions of human cardiovascular system may be devised by coupl...
This work is focused on the development of a geometrical multiscale framework for modelling the huma...
Over the past years, mathematical modelling and numerical simulation play a very important role in t...
In this paper we present a multiscale model for the analysis of fluid-structure interaction which co...
The blood flow in arterial trees in the cardiovascular system can be simulated with the help of diff...
The blood flow in arterial trees in the cardiovascular system can be simulated with the help of diff...
The fluid structure interaction mechanism in vascular dynamics can be described by either 3D or 1D m...
A geometrical multiscale model for blood flow through an ideal left ventricle and the main arteries ...
In this paper we propose a method for coupling distributed and lumped models for the blood circulati...
AbstractWe consider a one-dimensional blood flow model suitable for larger arteries. It consists of ...