Eqtype
Specifies the PDE system to solve. The following values are supported:
Monodomain
: solve the monodomain equation.
BidomainRoth
: solve the bidomain equations using the Roth formulation.CellModel
Specifies the cell model to use. Available cell models are
Projection
Specifies the Galerkin projection type to use. Only Continuous
has been
extensively tested.
TimeIntegrationMethod
Specifies the time integration scheme to use for advancing the
PDE system. This must be an IMEX scheme. Suitable choices are: IMEXOrder1
,
IMEXOrder2
, IMEXOrder3
, IMEXdirk_3_4_3
. The cell model state variables are time
advanced using Forward Euler for the ion concentrations, and Rush-Larsen for the cell
model gating variables.
DiffusionAdvancement
Specifies whether the diffusion is handled implicitly
or explicitly in the time integration scheme. The current code only supports
Implicit
integration of the diffusion term. The cell model is always integrated
explicitly.
The following parameters can be specified in the PARAMETERS
section of the session file.
Example values are taken from [12].
Chi
sets the surface-to-volume ratio (Units: mm-1).Cm
sets the specific membrane capacitance (Units: μFmm-2).Substeps
sets the number of substeps taken in time integrating the cell model for
each PDE timestep.d_min
, d_max
, o_min
, o_max
specifies a bijective map to assign conductivity values σ to
intensity values μ when using the IsotropicConductivity
function. The intensity map
is first thresholded to the range [dmin,dmax] and then the conductivity is calculated
as
σ = (1 - μ) + omin |
The following functions can be specified inside the CONDITIONS
section of the session file. If
both are specified, the effect is multiplicative. Example values are taken from [12].
IsotropicConductivity
specifies the conductivity σ of the tissue. The variable name to use is intensity
since the conductivity may be derived
from late-Gadolinium enhanced MRA imaging. Example specifications are
where scarmap.con
is a Nektar++ field file containing a variable intensity
describing
the conductivity across the domain.
AnisotropicConductivity
specifies the conductivity σ of the tissue.
The following filters are supported exclusively for the cardiac EP solver. Further filters from section 3.4 are also available for this solver.
Benchmark
(section 3.4.3)
CellHistoryPoints
(section 3.4.4)
CheckpointCellModel
(section 3.4.5)
Electrogram
(section 3.4.7)
Electrophysiological propagaion is initiated through the stimulus current Iion. The STIMULI
section describes one or more regions of stimulus and the time-dependent protocol with which
they are applied.
A number of stimulus types are available
StimulusRect
stimulates a cuboid-shaped region of the domain, specified by two
coordinates (x1,y1,z1) and (x2,y2,z2). An additional parameter specifies the
"smoothness" of the boundaries of the region; higher values produce a sharper boundary.
Finally, the maximum strength of the stimulus current is specified in μA∕mm3
StimulusCirc
stimulates a spherical region of the domain, as specified by a centre and
radius. The smoothness and strength parameters are also specified as for ‘StimulusRect‘.
A protocol specifies the time-dependent function indicating the strength of the stimulus and
one such PROTOCOL
section should be included within each STIMULUS
. This can be expressed as
one of:
ProtocolSingle
a single stimulus is applied at a given start time and for a given
duration
ProtocolS1
a train of pulses of fixed duration applied at a given start time and with a
given cycle length.
ProtocolS1S2
same as ‘ProtocolS1‘ except with an additional single pulse applied at a
different cycle length at the end of the train of S1 pulses.