In this paper a family of one-dimensional nonlinear systems which model the blood pulse propagation in compliant arteries is presented and investigated. They are obtained by averaging the Navier-Stokes equation on each section of an arterial vessel and using simplified models for the vessel compliance. Different differential operators arise depending on the simplifications made on the structural model. Starting from the most basic assumption of pure elastic instantaneous equilibrium, which provides a well-known algebraic relation between intramural pressure and vessel section area, we analyse in turn the effects of terms accounting for inertia, longitudinal prestress and viscoelasticity. The problem of how to account for branching and possi...
To address the issue of computational efficiency related to the modelling of blood flow in complex n...
International audienceThe purpose of this work is to use a variational method to identify some of th...
Abstract. Several lumped parameter, or zero-dimensional (0-D), models of the micro-circulation are c...
The human arterial system is formed by a network of vessels that can be regarded as hollow tubes of ...
In this thesis, it is investigated how the blood flow changes in different physiological situations,...
We are interested in developing a simple model to investigate blood-vessel interactions in a finite ...
A mathematical model of blood flow through an arterial vessel is presented and the wave propagation ...
We are interested in developing a simple model to investigate blood-vessel interactions in a finite ...
A differential model of blood flow through an arterial vessel is presented. The flow equations avera...
A dierential model of blood ow through an arterial vessel is presented. It consists of a one-dimensi...
International audienceIt is well known that blood vessels exhibit viscoelastic properties, which are...
For pre-operative decision making in cardiovascular surgery, patient-specific physiological data are...
The purpose of this thesis is to develop a non-linear, one-dimensional (1-D) model of pulse wave pro...
Blood flow and pulse wave propagation in the blood vessels are usually studied on the incompressible...
Mathematical modeling at the level of the full cardiovascular system requires the numerical ap-proxi...
To address the issue of computational efficiency related to the modelling of blood flow in complex n...
International audienceThe purpose of this work is to use a variational method to identify some of th...
Abstract. Several lumped parameter, or zero-dimensional (0-D), models of the micro-circulation are c...
The human arterial system is formed by a network of vessels that can be regarded as hollow tubes of ...
In this thesis, it is investigated how the blood flow changes in different physiological situations,...
We are interested in developing a simple model to investigate blood-vessel interactions in a finite ...
A mathematical model of blood flow through an arterial vessel is presented and the wave propagation ...
We are interested in developing a simple model to investigate blood-vessel interactions in a finite ...
A differential model of blood flow through an arterial vessel is presented. The flow equations avera...
A dierential model of blood ow through an arterial vessel is presented. It consists of a one-dimensi...
International audienceIt is well known that blood vessels exhibit viscoelastic properties, which are...
For pre-operative decision making in cardiovascular surgery, patient-specific physiological data are...
The purpose of this thesis is to develop a non-linear, one-dimensional (1-D) model of pulse wave pro...
Blood flow and pulse wave propagation in the blood vessels are usually studied on the incompressible...
Mathematical modeling at the level of the full cardiovascular system requires the numerical ap-proxi...
To address the issue of computational efficiency related to the modelling of blood flow in complex n...
International audienceThe purpose of this work is to use a variational method to identify some of th...
Abstract. Several lumped parameter, or zero-dimensional (0-D), models of the micro-circulation are c...