@Override
public double getBrokerSwitchFactor(boolean isSuperseding) {
double result = subStructure.getBrokerSwitchFactor();
if (isSuperseding) {
return result * 5.0;
}
return result;
}
DefaultUtilityOptimizer(CustomerStructure customerStructure, List<CapacityBundle> bundles) {
this.customerStructure = customerStructure;
this.capacityBundles = bundles;
this.evaluatorMap = new HashMap<>();
// create evaluation wrappers and tariff evaluators for each bundle
for (CapacityBundle bundle : bundles) {
TariffSubscriberStructure subStructure = bundle.getSubscriberStructure();
TariffEvaluator evaluator =
new TariffEvaluator(new TariffEvaluationWrapper(bundle))
.withChunkSize(Math.max(1, bundle.getPopulation() / 1000))
.withTariffSwitchFactor(subStructure.getTariffSwitchFactor())
.withPreferredContractDuration(subStructure.getExpectedDuration())
.withInconvenienceWeight(subStructure.getInconvenienceWeight())
.withRationality(subStructure.getLogitChoiceRationality())
.withEvaluateAllTariffs(true);
evaluator.initializeCostFactors(
subStructure.getExpMeanPriceWeight(),
subStructure.getMaxValuePriceWeight(),
subStructure.getRealizedPriceWeight(),
subStructure.getTariffVolumeThreshold());
evaluator.initializeInconvenienceFactors(
subStructure.getTouFactor(),
subStructure.getTieredRateFactor(),
subStructure.getVariablePricingFactor(),
subStructure.getInterruptibilityFactor());
evaluatorMap.put(bundle, evaluator);
}
}
