Fast algorithms for simulating mathematical models of coupled blood-tissue transport and metabolism are critical for the analysis of data on transport and reaction in tissues. Here, by combining the method of characteristics with the standard grid discretization technique, a novel algorithm is introduced for solving a general blood-tissue transport and metabolism model governed by a large system of one-dimensional semilinear first order partial differential equations. The key part of the algorithm is to approximate the model as a group of independent ordinary differential equation (ODE) systems such that each ODE system has the same size as the model and can be integrated independently. Thus the method can be easily implemented in parallel ...
A simple model has been developed for simulation of oxygen (O$\sb2$) transport by red blood cells (R...
In the last decade, numerical models have become an increasingly important tool in biological and me...
Abstract—This paper presents two approaches in parallel modeling of vascular system development in i...
In this study, parallel computation of blood flow in a 1-D model of human arterial network has been ...
The range of applications of mathematical modelling in biosciences has recently expanded to encompas...
International audienceThis paper presents two approaches in parallel modeling of vascular system dev...
Abstract:- The compartmental models using differential equations are basic models in epidemiology. T...
This research investigates the applicability of mathematical and computer procedures for the simula...
AbstractWe study a coupled system of ordinary differential equations and quasilinear hyperbolic part...
Biological systems are characterised by a large number of interacting entities whose dynamics is des...
This paper provides new results of consistence and convergence of the lumped parameters (ODE models...
Abstract—The paper presents two approaches in parallel modeling of vascular system development in in...
Much research effort has been directed in different physiological contexts towards describing realis...
This work was also published as a Rice University thesis/dissertation: http://hdl.handle.net/1911/96...
In this work a new semi-implicit high resolution scheme for the simulation of advection-diffusion pr...
A simple model has been developed for simulation of oxygen (O$\sb2$) transport by red blood cells (R...
In the last decade, numerical models have become an increasingly important tool in biological and me...
Abstract—This paper presents two approaches in parallel modeling of vascular system development in i...
In this study, parallel computation of blood flow in a 1-D model of human arterial network has been ...
The range of applications of mathematical modelling in biosciences has recently expanded to encompas...
International audienceThis paper presents two approaches in parallel modeling of vascular system dev...
Abstract:- The compartmental models using differential equations are basic models in epidemiology. T...
This research investigates the applicability of mathematical and computer procedures for the simula...
AbstractWe study a coupled system of ordinary differential equations and quasilinear hyperbolic part...
Biological systems are characterised by a large number of interacting entities whose dynamics is des...
This paper provides new results of consistence and convergence of the lumped parameters (ODE models...
Abstract—The paper presents two approaches in parallel modeling of vascular system development in in...
Much research effort has been directed in different physiological contexts towards describing realis...
This work was also published as a Rice University thesis/dissertation: http://hdl.handle.net/1911/96...
In this work a new semi-implicit high resolution scheme for the simulation of advection-diffusion pr...
A simple model has been developed for simulation of oxygen (O$\sb2$) transport by red blood cells (R...
In the last decade, numerical models have become an increasingly important tool in biological and me...
Abstract—This paper presents two approaches in parallel modeling of vascular system development in i...