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CepModAp Class Reference

This module defines data structures for Aliev-Panfilov cellular activation model for cardiac electrophysiology. More...

#include <CepModAp.h>

Public Member Functions

void actv_strs (const double X, const double dt, double &Tact, double &epsX)
 Compute activation force for electromechanics based on active stress model. More...
 
void getf (const int n, const Vector< double > &X, Vector< double > &f, const double fext)
 
void getj (const int n, const Vector< double > &X, Array< double > &Jac, const double Ksac)
 
void init (const int nX, Vector< double > &X)
 SUBROUTINE AP_INIT0(nX, X) More...
 
void init (const int nX, Vector< double > &X, double X0)
 SUBROUTINE AP_INITS(nX, X, X0) More...
 
void init (const int nX, Vector< double > &X, Vector< double > &X0)
 SUBROUTINE AP_INITV(nX, X, X0) More...
 
void integ_cn2 (const int nX, Vector< double > &Xn, const double Ts, const double Ti, const double Istim, const double Ksac, Vector< int > &IPAR, Vector< double > &RPAR)
 Time integration performed using Crank-Nicholson method. More...
 
void integ_fe (const int nX, Vector< double > &X, const double Ts, const double Ti, const double Istim, const double Ksac)
 Time integration performed using Forward Euler method. More...
 
void integ_rk (const int nX, Vector< double > &X, const double Ts, const double Ti, const double Istim, const double Ksac)
 Time integration performed using 4th order Runge-Kutta method. More...
 

Public Attributes

double Vscale = 100.0
 Voltage scaling. More...
 
double Tscale = 12.90
 Time scaling. More...
 
double Voffset = -80.0
 Voltage offset parameter. More...
 
double alpha = 1.E-2
 Model parameters. More...
 
double a = 2.E-3
 
double b = 0.150
 
double c = 8.0
 
double mu1 = 0.20
 
double mu2 = 0.30
 
double Vrest = -80.0
 Resting voltage (mV) More...
 
double Vcrit = -30.0
 Critical voltage (mV) More...
 
double eta_T = 5.E-3
 Saturation potential. More...
 
double eps_0 = 0.10
 Minimum activation (ms^{-1}) More...
 
double eps_i = 1.0
 Maximum activation (ms^{-1}) More...
 
double xi_T = 1.0
 Transition rate (mV^{-1}) More...
 
double Cm = 1.0
 Cm: Cell capacitance per unit surface area. More...
 
double sV = 1.0
 sV: Surface to volume ratio More...
 
double rho = 1.0
 rho: Cellular resistivity More...
 

Detailed Description

This module defines data structures for Aliev-Panfilov cellular activation model for cardiac electrophysiology.

The classes defined here duplicate the data structures in the Fortran APMOD module defined in CEPMOD_AP.f and PARAMS_AP.f files.

Member Function Documentation

◆ actv_strs()

void CepModAp::actv_strs ( const double  X,
const double  dt,
double &  Tact,
double &  epsX 
)

Compute activation force for electromechanics based on active stress model.

Replicates 'SUBROUTINE AP_ACTVSTRS(X, dt, Tact, epsX)' defined in 'CEPMOD_AP.f'.

◆ init() [1/3]

void CepModAp::init ( const int  nX,
Vector< double > &  X 
)

SUBROUTINE AP_INIT0(nX, X)

◆ init() [2/3]

void CepModAp::init ( const int  nX,
Vector< double > &  X,
double  X0 
)

SUBROUTINE AP_INITS(nX, X, X0)

◆ init() [3/3]

void CepModAp::init ( const int  nX,
Vector< double > &  X,
Vector< double > &  X0 
)

SUBROUTINE AP_INITV(nX, X, X0)

◆ integ_cn2()

void CepModAp::integ_cn2 ( const int  nX,
Vector< double > &  Xn,
const double  Ts,
const double  Ti,
const double  Istim,
const double  Ksac,
Vector< int > &  IPAR,
Vector< double > &  RPAR 
)

Time integration performed using Crank-Nicholson method.

Replicates 'SUBROUTINE AP_INTEGCN2(nX, Xn, Ts, Ti, Istim, Ksac, IPAR, RPAR)' defined in 'CEPMOD_AP.f'.

◆ integ_fe()

void CepModAp::integ_fe ( const int  nX,
Vector< double > &  X,
const double  Ts,
const double  Ti,
const double  Istim,
const double  Ksac 
)

Time integration performed using Forward Euler method.

Replicates 'SUBROUTINE AP_INTEGFE(nX, X, Ts, Ti, Istim, Ksac)' defined in 'CEPMOD_AP.f'.

◆ integ_rk()

void CepModAp::integ_rk ( const int  nX,
Vector< double > &  X,
const double  Ts,
const double  Ti,
const double  Istim,
const double  Ksac 
)

Time integration performed using 4th order Runge-Kutta method.

Replicates 'SUBROUTINE AP_INTEGRK(nX, X, Ts, Ti, Istim, Ksac)' defined in 'CEPMOD_AP.f'.

Member Data Documentation

◆ alpha

double CepModAp::alpha = 1.E-2

Model parameters.

◆ Cm

double CepModAp::Cm = 1.0

Cm: Cell capacitance per unit surface area.

◆ eps_0

double CepModAp::eps_0 = 0.10

Minimum activation (ms^{-1})

◆ eps_i

double CepModAp::eps_i = 1.0

Maximum activation (ms^{-1})

◆ eta_T

double CepModAp::eta_T = 5.E-3

Saturation potential.

◆ rho

double CepModAp::rho = 1.0

rho: Cellular resistivity

◆ sV

double CepModAp::sV = 1.0

sV: Surface to volume ratio

◆ Tscale

double CepModAp::Tscale = 12.90

Time scaling.

◆ Vcrit

double CepModAp::Vcrit = -30.0

Critical voltage (mV)

◆ Voffset

double CepModAp::Voffset = -80.0

Voltage offset parameter.

◆ Vrest

double CepModAp::Vrest = -80.0

Resting voltage (mV)

◆ Vscale

double CepModAp::Vscale = 100.0

Voltage scaling.

◆ xi_T

double CepModAp::xi_T = 1.0

Transition rate (mV^{-1})

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