SPHinXsys
alpha version
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In is file, we declaim the dynamics relevant to electrophysiology, including diffusion, reaction and muscle activation. More...
Go to the source code of this file.
Classes | |
class | SPH::ElectroPhysiologyReaction |
class | SPH::AlievPanfilowModel |
The simplest Electrophysiology Reaction model, which reduces the complex of array of ion currents to two variables that describe excitation and recovery. More... | |
class | SPH::MonoFieldElectroPhysiology |
material class for electro_physiology. More... | |
class | SPH::LocalMonoFieldElectroPhysiology |
material class for electro_physiology with locally oriented fibers. More... | |
class | SPH::ElectroPhysiologyParticles |
A group of particles with electrophysiology particle data. More... | |
class | SPH::ElectroPhysiologyReducedParticles |
A group of reduced particles with electrophysiology particle data. More... | |
class | SPH::electro_physiology::ElectroPhysiologyInitialCondition |
set initial condition for a muscle body This is a abstract class to be override for case specific initial conditions. More... | |
class | SPH::electro_physiology::GetElectroPhysiologyTimeStepSize |
Computing the time step size from diffusion criteria. More... | |
class | SPH::electro_physiology::ElectroPhysiologyDiffusionRelaxationInner |
Compute the diffusion relaxation process. More... | |
class | SPH::electro_physiology::ElectroPhysiologyDiffusionRelaxationComplex |
Compute the diffusion relaxation process. More... | |
class | SPH::electro_physiology::ElectroPhysiologyReactionRelaxationForward |
Solve the reaction ODE equation of trans-membrane potential using forward sweeping. More... | |
class | SPH::electro_physiology::ElectroPhysiologyReactionRelaxationBackward |
class | SPH::electro_physiology::ApplyStimulusCurrents |
Apply specific stimulus currents This is a abstract class to be override for case specific implementations. More... | |
Namespaces | |
SPH | |
In is file, we declaim the dynamics relevant to electrophysiology, including diffusion, reaction and muscle activation.