/// <summary>
/// Constructs an initialized instance
/// </summary>
/// <param name="timeScale">Membrane time scale (ms)</param>
/// <param name="resistance">Membrane resistance (Mohm)</param>
/// <param name="restV">Membrane rest potential (mV)</param>
/// <param name="resetV">Membrane reset potential (mV)</param>
/// <param name="rheobaseV">Membrane rheobase threshold (mV)</param>
/// <param name="firingThresholdV">Membrane firing threshold (mV)</param>
/// <param name="sharpnessDeltaT">Sharpness of membrane potential change (mV)</param>
/// <param name="adaptationVoltageCoupling">Adaptation voltage coupling (nS)</param>
/// <param name="adaptationTimeConstant">Adaptation time constant (ms)</param>
/// <param name="adaptationSpikeTriggeredIncrement">Spike triggered adaptation increment (pA)</param>
/// <param name="solverMethod">ODE numerical solver method</param>
/// <param name="solverCompSteps">ODE numerical solver computation steps of the time step</param>
public AdExpIF(double timeScale,
double resistance,
double restV,
double resetV,
double rheobaseV,
double firingThresholdV,
double sharpnessDeltaT,
double adaptationVoltageCoupling,
double adaptationTimeConstant,
double adaptationSpikeTriggeredIncrement,
ODENumSolver.Method solverMethod,
int solverCompSteps
)
: base(PhysUnit.ToBase(restV, PhysUnit.MetricPrefix.Milli),
PhysUnit.ToBase(resetV, PhysUnit.MetricPrefix.Milli),
PhysUnit.ToBase(firingThresholdV, PhysUnit.MetricPrefix.Milli),
0,
solverMethod,
PhysUnit.ToBase(1, PhysUnit.MetricPrefix.Milli),
solverCompSteps,
2,
PhysUnit.FromBase(1d, PhysUnit.MetricPrefix.Giga),
PhysUnit.FromBase(1d, PhysUnit.MetricPrefix.Milli)
)
{
_timeScale = PhysUnit.ToBase(timeScale, PhysUnit.MetricPrefix.Milli);
_resistance = PhysUnit.ToBase(resistance, PhysUnit.MetricPrefix.Mega);
_rheobaseV = PhysUnit.ToBase(rheobaseV, PhysUnit.MetricPrefix.Milli);
_sharpnessDeltaT = PhysUnit.ToBase(sharpnessDeltaT, PhysUnit.MetricPrefix.Milli);
_adaptationVoltageCoupling = PhysUnit.ToBase(adaptationVoltageCoupling, PhysUnit.MetricPrefix.Nano);
_adaptationTimeConstant = PhysUnit.ToBase(adaptationTimeConstant, PhysUnit.MetricPrefix.Milli);
_spikeTriggeredAdaptationIncrement = PhysUnit.ToBase(adaptationSpikeTriggeredIncrement, PhysUnit.MetricPrefix.Piko);
_evolVars[VarAdaptationOmegaIdx] = 0;
return;
}
/// <summary>
/// Constructs an initialized instance
/// </summary>
/// <param name="membraneTimeScale">Membrane time scale (ms)</param>
/// <param name="membraneResistance">Membrane resistance (Mohm)</param>
/// <param name="restV">Membrane rest potential (mV)</param>
/// <param name="resetV">Membrane reset potential (mV)</param>
/// <param name="rheobaseThresholdV">Membrane rheobase threshold (mV)</param>
/// <param name="firingThresholdV">Membrane firing threshold (mV)</param>
/// <param name="sharpnessDeltaT">Sharpness of membrane potential change (mV)</param>
/// <param name="adaptationVoltageCoupling">Adaptation voltage coupling (nS)</param>
/// <param name="adaptationTimeConstant">Adaptation time constant (ms)</param>
/// <param name="spikeTriggeredAdaptationIncrement">Spike triggered adaptation increment (pA)</param>
/// <param name="stimuliCoeff">Input stimuli coefficient (pA)</param>
public AdExpIF(double membraneTimeScale,
double membraneResistance,
double restV,
double resetV,
double rheobaseThresholdV,
double firingThresholdV,
double sharpnessDeltaT,
double adaptationVoltageCoupling,
double adaptationTimeConstant,
double spikeTriggeredAdaptationIncrement,
double stimuliCoeff
)
: base(PhysUnit.ToBase(restV, PhysUnit.MetricPrefix.Milli),
PhysUnit.ToBase(resetV, PhysUnit.MetricPrefix.Milli),
PhysUnit.ToBase(firingThresholdV, PhysUnit.MetricPrefix.Milli),
0,
PhysUnit.ToBase(stimuliCoeff, PhysUnit.MetricPrefix.Piko),
PhysUnit.ToBase(1, PhysUnit.MetricPrefix.Milli),
2,
2)
{
_membraneTimeScale = PhysUnit.ToBase(membraneTimeScale, PhysUnit.MetricPrefix.Milli);
_membraneResistance = PhysUnit.ToBase(membraneResistance, PhysUnit.MetricPrefix.Mega);
_rheobaseThresholdV = PhysUnit.ToBase(rheobaseThresholdV, PhysUnit.MetricPrefix.Milli);
_sharpnessDeltaT = PhysUnit.ToBase(sharpnessDeltaT, PhysUnit.MetricPrefix.Milli);
_adaptationVoltageCoupling = PhysUnit.ToBase(adaptationVoltageCoupling, PhysUnit.MetricPrefix.Nano);
_adaptationTimeConstant = PhysUnit.ToBase(adaptationTimeConstant, PhysUnit.MetricPrefix.Milli);
_spikeTriggeredAdaptationIncrement = PhysUnit.ToBase(spikeTriggeredAdaptationIncrement, PhysUnit.MetricPrefix.Piko);
_evolVars[VarAdaptationOmega] = 0;
return;
}
