Esempio n. 1
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        /// <summary>
        /// Creates an initialized instance.
        /// </summary>
        /// <param name="elem">A xml element containing the configuration data.</param>
        public AFAnalogElliotSettings(XElement elem)
        {
            //Validation
            XElement activationSettingsElem = Validate(elem, XsdTypeName);

            //Parsing
            Slope = URandomValueSettings.LoadOrCreate(activationSettingsElem, "slope", TypicalSlope);
            return;
        }
Esempio n. 2
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        /// <summary>
        /// Creates an initialized instance.
        /// </summary>
        /// <param name="elem">A xml element containing the configuration data.</param>
        public AFAnalogSoftExponentialSettings(XElement elem)
        {
            //Validation
            XElement activationSettingsElem = Validate(elem, XsdTypeName);

            //Parsing
            Alpha = URandomValueSettings.LoadOrCreate(activationSettingsElem, "alpha", TypicalAlpha);
            return;
        }
Esempio n. 3
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        /// <summary>
        /// Creates an initialized instance.
        /// </summary>
        /// <param name="elem">A xml element containing the configuration data.</param>
        public AFSpikingSimpleIFSettings(XElement elem)
        {
            //Validation
            XElement activationSettingsElem = Validate(elem, XsdTypeName);

            //Parsing
            Resistance        = URandomValueSettings.LoadOrCreate(activationSettingsElem, "resistance", TypicalResistance);
            DecayRate         = URandomValueSettings.LoadOrCreate(activationSettingsElem, "decayRate", TypicalDecayRate);
            ResetV            = URandomValueSettings.LoadOrCreate(activationSettingsElem, "resetV", TypicalResetV);
            FiringThresholdV  = URandomValueSettings.LoadOrCreate(activationSettingsElem, "firingThresholdV", TypicalFiringThresholdV);
            RefractoryPeriods = int.Parse(activationSettingsElem.Attribute("refractoryPeriods").Value, CultureInfo.InvariantCulture);
            Check();
            return;
        }
Esempio n. 4
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        /// <summary>
        /// Creates an initialized instance.
        /// </summary>
        /// <param name="elem">A xml element containing the configuration data.</param>
        public AFSpikingLeakyIFSettings(XElement elem)
        {
            //Validation
            XElement activationSettingsElem = Validate(elem, XsdTypeName);

            //Parsing
            TimeScale         = URandomValueSettings.LoadOrCreate(activationSettingsElem, "timeScale", TypicalTimeScale);
            Resistance        = URandomValueSettings.LoadOrCreate(activationSettingsElem, "resistance", TypicalResistance);
            RestV             = RandomValueSettings.LoadOrCreate(activationSettingsElem, "restV", TypicalRestV);
            ResetV            = RandomValueSettings.LoadOrCreate(activationSettingsElem, "resetV", TypicalResetV);
            FiringThresholdV  = RandomValueSettings.LoadOrCreate(activationSettingsElem, "firingThresholdV", TypicalFiringThresholdV);
            RefractoryPeriods = int.Parse(activationSettingsElem.Attribute("refractoryPeriods").Value, CultureInfo.InvariantCulture);
            SolverMethod      = (ODENumSolver.Method)Enum.Parse(typeof(ODENumSolver.Method), activationSettingsElem.Attribute("solverMethod").Value, true);
            SolverCompSteps   = int.Parse(activationSettingsElem.Attribute("solverCompSteps").Value, CultureInfo.InvariantCulture);
            StimuliDuration   = double.Parse(activationSettingsElem.Attribute("stimuliDuration").Value, CultureInfo.InvariantCulture);
            Check();
            return;
        }
Esempio n. 5
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        /// <summary>
        /// Creates an initialized instance.
        /// </summary>
        /// <param name="elem">A xml element containing the configuration data.</param>
        public AFSpikingAdExpIFSettings(XElement elem)
        {
            //Validation
            XElement activationSettingsElem = Validate(elem, XsdTypeName);

            //Parsing
            TimeScale                         = URandomValueSettings.LoadOrCreate(activationSettingsElem, "timeScale", TypicalTimeScale);
            Resistance                        = URandomValueSettings.LoadOrCreate(activationSettingsElem, "resistance", TypicalResistance);
            RestV                             = RandomValueSettings.LoadOrCreate(activationSettingsElem, "restV", TypicalRestV);
            ResetV                            = RandomValueSettings.LoadOrCreate(activationSettingsElem, "resetV", TypicalResetV);
            RheobaseV                         = RandomValueSettings.LoadOrCreate(activationSettingsElem, "rheobaseV", TypicalRheobaseV);
            FiringThresholdV                  = RandomValueSettings.LoadOrCreate(activationSettingsElem, "firingThresholdV", TypicalFiringThresholdV);
            SharpnessDeltaT                   = URandomValueSettings.LoadOrCreate(activationSettingsElem, "sharpnessDeltaT", TypicalSharpnessDeltaT);
            AdaptationVoltageCoupling         = URandomValueSettings.LoadOrCreate(activationSettingsElem, "adaptationVoltageCoupling", TypicalAdaptationVoltageCoupling);
            AdaptationTimeConstant            = URandomValueSettings.LoadOrCreate(activationSettingsElem, "adaptationTimeConstant", TypicalAdaptationTimeConstant);
            AdaptationSpikeTriggeredIncrement = URandomValueSettings.LoadOrCreate(activationSettingsElem, "adaptationSpikeTriggeredIncrement", TypicalAdaptationSpikeTriggeredIncrement);
            SolverMethod                      = (ODENumSolver.Method)Enum.Parse(typeof(ODENumSolver.Method), activationSettingsElem.Attribute("solverMethod").Value, true);
            SolverCompSteps                   = int.Parse(activationSettingsElem.Attribute("solverCompSteps").Value, CultureInfo.InvariantCulture);
            StimuliDuration                   = double.Parse(activationSettingsElem.Attribute("stimuliDuration").Value, CultureInfo.InvariantCulture);
            Check();
            return;
        }