AbstractBackwardEulerCardiacCell< SIZE > Class Template Reference
#include <AbstractBackwardEulerCardiacCell.hpp>
Public Member Functions | |
| AbstractBackwardEulerCardiacCell (unsigned numberOfStateVariables, unsigned voltageIndex, boost::shared_ptr< AbstractStimulusFunction > pIntracellularStimulus) | |
| virtual | ~AbstractBackwardEulerCardiacCell () |
| virtual void | ComputeResidual (double time, const double rCurrentGuess[SIZE], double rResidual[SIZE])=0 |
| virtual void | ComputeJacobian (double time, const double rCurrentGuess[SIZE], double rJacobian[SIZE][SIZE])=0 |
| OdeSolution | Compute (double tStart, double tEnd, double tSamp=0.0) |
| void | ComputeExceptVoltage (double tStart, double tEnd) |
| void | SolveAndUpdateState (double tStart, double tEnd) |
Protected Member Functions | |
| virtual void | ComputeOneStepExceptVoltage (double tStart)=0 |
| virtual void | UpdateTransmembranePotential (double time)=0 |
Private Member Functions | |
| template<class Archive> | |
| void | serialize (Archive &archive, const unsigned int version) |
| void | EvaluateYDerivatives (double time, const std::vector< double > &rY, std::vector< double > &rDY) |
Friends | |
| class | boost::serialization::access |
Detailed Description
template<unsigned SIZE>
class AbstractBackwardEulerCardiacCell< SIZE >
This is the base class for cardiac cells solved using a (decoupled) backward Euler approach.The basic approach to solving such models is:
- Update the transmembrane potential, either from solving an external PDE, or using a forward Euler step.
- Update any gating variables (or similar) using a backward euler step. Suitable ODEs can be written in the form
. The update expression is then 
. - Update the remaining state variables using Newton's method to solve the nonlinear system
. The template parameter to the class specifies the size of this nonlinear system.
Definition at line 60 of file AbstractBackwardEulerCardiacCell.hpp.
Constructor & Destructor Documentation
| AbstractBackwardEulerCardiacCell< SIZE >::AbstractBackwardEulerCardiacCell | ( | unsigned | numberOfStateVariables, | |
| unsigned | voltageIndex, | |||
| boost::shared_ptr< AbstractStimulusFunction > | pIntracellularStimulus | |||
| ) | [inline] |
Standard constructor for a cell.
- Parameters:
-
numberOfStateVariables the size of the ODE system voltageIndex the index of the variable representing the transmembrane potential within the state variable vector pIntracellularStimulus the intracellular stimulus function
- We may want to remove the timestep from this class, and instead pass it to the Compute* methods, especially if variable timestepping is to be used.
- It's a pity that inheriting from AbstractCardiacCell forces us to store a null pointer (for the unused ODE solver) in every instance. We may want to revisit this design decision at a later date.
Definition at line 198 of file AbstractBackwardEulerCardiacCell.hpp.
| AbstractBackwardEulerCardiacCell< SIZE >::~AbstractBackwardEulerCardiacCell | ( | ) | [inline, virtual] |
Virtual destructor
Definition at line 209 of file AbstractBackwardEulerCardiacCell.hpp.
Member Function Documentation
| void AbstractBackwardEulerCardiacCell< SIZE >::serialize | ( | Archive & | archive, | |
| const unsigned int | version | |||
| ) | [inline, private] |
Archive the member variables.
- Parameters:
-
archive version
Reimplemented from AbstractCardiacCell.
Definition at line 72 of file AbstractBackwardEulerCardiacCell.hpp.
| virtual void AbstractBackwardEulerCardiacCell< SIZE >::ComputeResidual | ( | double | time, | |
| const double | rCurrentGuess[SIZE], | |||
| double | rResidual[SIZE] | |||
| ) | [pure virtual] |
Compute the residual of the nonlinear system portion of the cell model.
- Parameters:
-
time the current time rCurrentGuess the current guess for 
rResidual to be filled in with the residual vector
| virtual void AbstractBackwardEulerCardiacCell< SIZE >::ComputeJacobian | ( | double | time, | |
| const double | rCurrentGuess[SIZE], | |||
| double | rJacobian[SIZE][SIZE] | |||
| ) | [pure virtual] |
Compute the Jacobian matrix for the nonlinear system portion of the cell model.
- Parameters:
-
time the current time rCurrentGuess the current guess for rJacobian to be filled in with the Jacobian matrix
| OdeSolution AbstractBackwardEulerCardiacCell< SIZE >::Compute | ( | double | tStart, | |
| double | tEnd, | |||
| double | tSamp = 0.0 | |||
| ) | [inline, virtual] |
Simulates this cell's behaviour between the time interval [tStart, tEnd], with timestep mDt. Uses a forward Euler step to update the transmembrane potential at each timestep.
The length of the time interval must be a multiple of the timestep.
- Parameters:
-
tStart beginning of the time interval to simulate tEnd end of the time interval to simulate tSamp sampling interval for returned results (defaults to mDt)
- Returns:
- the values of each state variable, at intervals of tSamp.
Reimplemented from AbstractCardiacCell.
Definition at line 213 of file AbstractBackwardEulerCardiacCell.hpp.
References AbstractBackwardEulerCardiacCell< SIZE >::ComputeOneStepExceptVoltage(), AbstractCardiacCell::mDt, AbstractParameterisedSystem< std::vector< double > >::mpSystemInfo, OdeSolution::rGetSolutions(), AbstractParameterisedSystem< std::vector< double > >::rGetStateVariables(), OdeSolution::rGetTimes(), OdeSolution::SetNumberOfTimeSteps(), OdeSolution::SetOdeSystemInformation(), AbstractBackwardEulerCardiacCell< SIZE >::UpdateTransmembranePotential(), and AbstractCardiacCell::VerifyStateVariables().
| void AbstractBackwardEulerCardiacCell< SIZE >::ComputeExceptVoltage | ( | double | tStart, | |
| double | tEnd | |||
| ) | [inline, virtual] |
Simulates this cell's behaviour between the time interval [tStart, tEnd], with timestep mDt. The transmembrane potential is kept fixed throughout.
The length of the time interval must be a multiple of the timestep.
- Parameters:
-
tStart beginning of the time interval to simulate tEnd end of the time interval to simulate
Reimplemented from AbstractCardiacCell.
Definition at line 265 of file AbstractBackwardEulerCardiacCell.hpp.
References AbstractBackwardEulerCardiacCell< SIZE >::ComputeOneStepExceptVoltage(), AbstractCardiacCell::mDt, and AbstractCardiacCell::VerifyStateVariables().
| void AbstractBackwardEulerCardiacCell< SIZE >::SolveAndUpdateState | ( | double | tStart, | |
| double | tEnd | |||
| ) | [inline, virtual] |
Simulate this cell's behaviour between the time interval [tStart, tEnd], with timestemp mDt, updating the internal state variable values.
- Parameters:
-
tStart beginning of the time interval to simulate tEnd end of the time interval to simulate
Reimplemented from AbstractCardiacCell.
Definition at line 291 of file AbstractBackwardEulerCardiacCell.hpp.
References TimeStepper::AdvanceOneTimeStep(), AbstractBackwardEulerCardiacCell< SIZE >::ComputeOneStepExceptVoltage(), TimeStepper::GetTime(), TimeStepper::IsTimeAtEnd(), AbstractCardiacCell::mDt, AbstractBackwardEulerCardiacCell< SIZE >::UpdateTransmembranePotential(), and AbstractCardiacCell::VerifyStateVariables().
| void AbstractBackwardEulerCardiacCell< SIZE >::EvaluateYDerivatives | ( | double | time, | |
| const std::vector< double > & | rY, | |||
| std::vector< double > & | rDY | |||
| ) | [inline, private, virtual] |
This function should never be called - the cell class incorporates its own solver.
- Parameters:
-
time rY rDY
Implements AbstractOdeSystem.
Definition at line 163 of file AbstractBackwardEulerCardiacCell.hpp.
References NEVER_REACHED.
| virtual void AbstractBackwardEulerCardiacCell< SIZE >::ComputeOneStepExceptVoltage | ( | double | tStart | ) | [protected, pure virtual] |
Compute the values of all state variables, except the voltage, using backward Euler, for one timestep from tStart.
- Note:
- This method must be provided by subclasses.
- Parameters:
-
tStart start of this timestep
Referenced by AbstractBackwardEulerCardiacCell< SIZE >::Compute(), AbstractBackwardEulerCardiacCell< SIZE >::ComputeExceptVoltage(), and AbstractBackwardEulerCardiacCell< SIZE >::SolveAndUpdateState().
| virtual void AbstractBackwardEulerCardiacCell< SIZE >::UpdateTransmembranePotential | ( | double | time | ) | [protected, pure virtual] |
Perform a forward Euler step to update the transmembrane potential.
- Note:
- This method must be provided by subclasses.
- Parameters:
-
time start of this timestep
Referenced by AbstractBackwardEulerCardiacCell< SIZE >::Compute(), and AbstractBackwardEulerCardiacCell< SIZE >::SolveAndUpdateState().
Friends And Related Function Documentation
friend class boost::serialization::access [friend] |
Needed for serialization.
Reimplemented from AbstractCardiacCell.
Definition at line 64 of file AbstractBackwardEulerCardiacCell.hpp.
The documentation for this class was generated from the following file:
- heart/src/odes/AbstractBackwardEulerCardiacCell.hpp
