AbstractWe consider a one-dimensional blood flow model suitable for larger arteries. It consists of a hyperbolic system of two coupled nonlinear equations. The model has already been successfully used in practice. Its numerical solution is usually achieved by means of an explicit Taylor–Galerkin scheme. We have proposed a different approach. The system can be transformed to characteristic directions emphasizing the physical nature of the problem. We solved this system by using an operator splitting on a moving grid
A computational method of reduced complexity is developed for simulating vascular hemodynamics by co...
Thesis (MIng (Mechanical Engineering))--North-West University, Potchefstroom Campus, 2012.The purpos...
The blood flow in arterial trees in the cardiovascular system can be simulated with the help of diff...
AbstractWe consider a one-dimensional blood flow model suitable for larger arteries. It consists of ...
This work was also published as a Rice University thesis/dissertation: http://hdl.handle.net/1911/96...
Hæmodynamical simulations using one-dimensional (1D) computational models exhibit many of the featur...
The human cardiovascular system is a vastly complex collection of interacting components, including ...
In this paper a family of one-dimensional nonlinear systems which model the blood pulse propagation ...
International audienceFor the numerical simulation of the circulatory system, geometrical multiscale...
Mathematical modeling at the level of the full cardiovascular system requires the numerical ap-proxi...
In this work a numerical strategy to address the solution of the blood flow in one-dimensional arter...
In this study, parallel computation of blood flow in a 1-D model of human arterial network has been ...
A computational method of reduced complexity is developed for simulating vascular hemodynamics by co...
International audienceThe purpose of this work is to use a variational method to identify some of th...
In the last decade, numerical models have become an increasingly important tool in biological and me...
A computational method of reduced complexity is developed for simulating vascular hemodynamics by co...
Thesis (MIng (Mechanical Engineering))--North-West University, Potchefstroom Campus, 2012.The purpos...
The blood flow in arterial trees in the cardiovascular system can be simulated with the help of diff...
AbstractWe consider a one-dimensional blood flow model suitable for larger arteries. It consists of ...
This work was also published as a Rice University thesis/dissertation: http://hdl.handle.net/1911/96...
Hæmodynamical simulations using one-dimensional (1D) computational models exhibit many of the featur...
The human cardiovascular system is a vastly complex collection of interacting components, including ...
In this paper a family of one-dimensional nonlinear systems which model the blood pulse propagation ...
International audienceFor the numerical simulation of the circulatory system, geometrical multiscale...
Mathematical modeling at the level of the full cardiovascular system requires the numerical ap-proxi...
In this work a numerical strategy to address the solution of the blood flow in one-dimensional arter...
In this study, parallel computation of blood flow in a 1-D model of human arterial network has been ...
A computational method of reduced complexity is developed for simulating vascular hemodynamics by co...
International audienceThe purpose of this work is to use a variational method to identify some of th...
In the last decade, numerical models have become an increasingly important tool in biological and me...
A computational method of reduced complexity is developed for simulating vascular hemodynamics by co...
Thesis (MIng (Mechanical Engineering))--North-West University, Potchefstroom Campus, 2012.The purpos...
The blood flow in arterial trees in the cardiovascular system can be simulated with the help of diff...