CardiacElectroMechProbRegularGeom< DIM > Class Template Reference

#include <CardiacElectroMechProbRegularGeom.hpp>

Inheritance diagram for CardiacElectroMechProbRegularGeom< DIM >:

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Collaboration diagram for CardiacElectroMechProbRegularGeom< DIM >:

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List of all members.

Public Member Functions

 CardiacElectroMechProbRegularGeom (ContractionModel contractionModel, double width, unsigned numMechanicsElementsEachDir, unsigned numElectricsElementsEachDir, AbstractCardiacCellFactory< DIM > *pCellFactory, double endTime, double electricsPdeTimeStep, double mechanicsSolveTimestep, double contractionModelOdeTimeStep, std::string outputDirectory="")


Detailed Description

template<unsigned DIM>
class CardiacElectroMechProbRegularGeom< DIM >

Child class of CardiacElectroMechanicsProblem for setting up cardiac electromechanics problems on a square (currently just 2d). The user just has to specify the number of elements in each direction. Note: the X=0 surface is fixed in the deformation.

Definition at line 40 of file CardiacElectroMechProbRegularGeom.hpp.


Constructor & Destructor Documentation

template<unsigned DIM>
CardiacElectroMechProbRegularGeom< DIM >::CardiacElectroMechProbRegularGeom ( ContractionModel  contractionModel,
double  width,
unsigned  numMechanicsElementsEachDir,
unsigned  numElectricsElementsEachDir,
AbstractCardiacCellFactory< DIM > *  pCellFactory,
double  endTime,
double  electricsPdeTimeStep,
double  mechanicsSolveTimestep,
double  contractionModelOdeTimeStep,
std::string  outputDirectory = "" 
) [inline]

Constructor.

Parameters:
contractionModel contraction model (see the enum "ContractionModel" for the options).
width Width and height of the square
numMechanicsElementsEachDir Number of elements in each direction in the mechanics mesh
numElectricsElementsEachDir Number of elements in each direction in the electrics mesh
pCellFactory factory to use to create cells
endTime the end time to use
electricsPdeTimeStep timestep used in solving for the electrical activity
mechanicsSolveTimestep how often the mechanics is solved for (should be a multiple of electrics PDE timestep)
contractionModelOdeTimeStep Step size for contraction model (of active tension in cardiac cells) being used.
outputDirectory the output directory

Definition at line 58 of file CardiacElectroMechProbRegularGeom.hpp.

References AbstractTetrahedralMesh< ELEMENT_DIM, SPACE_DIM >::ConstructRegularSlabMesh(), AbstractMesh< ELEMENT_DIM, SPACE_DIM >::GetNumNodes(), CardiacElectroMechanicsProblem< DIM >::mFixedNodes, CardiacElectroMechanicsProblem< DIM >::mpElectricsMesh, and CardiacElectroMechanicsProblem< DIM >::mpMechanicsMesh.


The documentation for this class was generated from the following file:

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