// Tariff Evaluation --------------------------------
@Override
public void evaluateTariffs() {
for (CapacityBundle bundle : capacityBundles) {
TariffEvaluator evaluator = evaluatorMap.get(bundle);
if (bundle.getSubscriberStructure().getInertiaDistribution() != null) {
evaluator.withInertia(
bundle.getSubscriberStructure().getInertiaDistribution().drawSample());
} else {
log.warn("no inertia distro, using default value 0.7");
evaluator.withInertia(0.7);
}
evaluator.evaluateTariffs();
}
}
/**
* Initialization must provide accessor to Customer instance and time. We assume configuration has
* already happened. We also start with no active trucks, and the weakest batteries on
* availableChargers. Trucks will not be active (in bootstrap mode) until the first shift change.
*/
@Override
public void initialize() {
super.initialize();
log.info("Initialize " + name);
// fill out CustomerInfo. We label this model as thermal storage
// because we don't allow battery discharge
powerType = PowerType.THERMAL_STORAGE_CONSUMPTION;
CustomerInfo info = new CustomerInfo(name, 1);
// conservative interruptible capacity
double interruptible = Math.min(nChargers * maxChargeKW, nBatteries * maxChargeKW / 3.0);
info.withPowerType(powerType)
.withCustomerClass(CustomerClass.LARGE)
.withControllableKW(-interruptible)
.withStorageCapacity(nBatteries * maxChargeKW / 3.0)
.withUpRegulationKW(-nChargers * maxChargeKW)
.withDownRegulationKW(nChargers * maxChargeKW); // optimistic, perhaps
addCustomerInfo(info);
ensureSeeds();
// use default values when not configured
ensureShifts();
// make sure we have enough batteries and availableChargers
validateBatteries();
validateChargers();
// all batteries are charging
// energyCharging = getStateOfCharge() * getBatteryCapacity();
// capacityInUse = 0.0;
// energyInUse = 0.0;
// set up the tariff evaluator. We are wide-open to variable pricing.
tariffEvaluator = new TariffEvaluator(this);
tariffEvaluator.withInertia(0.7).withPreferredContractDuration(14);
tariffEvaluator.initializeInconvenienceFactors(0.0, 0.01, 0.0, 0.0);
tariffEvaluator.initializeRegulationFactors(
-nChargers * maxChargeKW * 0.05, 0.0, nChargers * maxChargeKW * 0.04);
}