private void RunModel(ChoiceProbabilityCalculator choiceProbabilityCalculator, PersonWrapper person, int choice = Constants.DEFAULT_VALUE)
{
Framework.DomainModels.Wrappers.IParcelWrapper homeParcel = person.Household.ResidenceParcel;
Framework.DomainModels.Wrappers.IParcelWrapper workParcel = person.IsUniversityStudent ? person.UsualSchoolParcel : person.UsualWorkParcel;
Framework.DomainModels.Wrappers.IParcelWrapper schoolParcel = person.IsUniversityStudent ? null : person.UsualSchoolParcel;
bool workParcelMissing = workParcel == null;
bool schoolParcelMissing = schoolParcel == null;
const double maxTranDist = 1.5;
double homeTranDist = 99.0;
if (homeParcel.GetDistanceToTransit() >= 0.0001 && homeParcel.GetDistanceToTransit() <= maxTranDist)
{
homeTranDist = homeParcel.GetDistanceToTransit();
}
double workTranDist = 99.0;
if (!workParcelMissing && workParcel.GetDistanceToTransit() >= 0.0001 && workParcel.GetDistanceToTransit() <= maxTranDist)
{
workTranDist = workParcel.GetDistanceToTransit();
}
double schoolTranDist = 99.0;
if (!schoolParcelMissing && schoolParcel.GetDistanceToTransit() >= 0.0001 && schoolParcel.GetDistanceToTransit() <= maxTranDist)
{
schoolTranDist = schoolParcel.GetDistanceToTransit();
}
double workGenTimeNoPass = -99.0;
double workGenTimeWithPass = -99.0;
if (!workParcelMissing && workTranDist < maxTranDist && homeTranDist < maxTranDist)
{
IEnumerable <IPathTypeModel> pathTypeModels =
PathTypeModelFactory.Singleton.Run(
person.Household.RandomUtility,
homeParcel,
workParcel,
Global.Settings.Times.EightAM,
Global.Settings.Times.FivePM,
Global.Settings.Purposes.Work,
Global.Coefficients_BaseCostCoefficientPerMonetaryUnit,
Global.Configuration.Coefficients_MeanTimeCoefficient_Work,
true,
1,
0,
false,
0.0,
false,
Global.Settings.Modes.Transit);
IPathTypeModel path = pathTypeModels.First();
workGenTimeNoPass = path.GeneralizedTimeLogsum;
// intermediate variable of type IEnumerable<dynamic> is needed to acquire First() method as extension
pathTypeModels =
PathTypeModelFactory.Singleton.Run(
person.Household.RandomUtility,
homeParcel,
workParcel,
Global.Settings.Times.EightAM,
Global.Settings.Times.FivePM,
Global.Settings.Purposes.Work,
Global.Coefficients_BaseCostCoefficientPerMonetaryUnit,
Global.Configuration.Coefficients_MeanTimeCoefficient_Work,
/* isDrivingAge */ true,
/* householdCars */ 1,
/* transitPassOwnership */ 1,
/* carsAreAVs */ false,
/* transitDiscountFraction */ 1.0,
/* randomChoice */ false,
Global.Settings.Modes.Transit);
path = pathTypeModels.First();
workGenTimeWithPass = path.GeneralizedTimeLogsum;
}
// double schoolGenTimeNoPass = -99.0;
double schoolGenTimeWithPass = -99.0;
if (!schoolParcelMissing && schoolTranDist < maxTranDist && homeTranDist < maxTranDist)
{
// schoolGenTimeNoPass = path.GeneralizedTimeLogsum;
IEnumerable <IPathTypeModel> pathTypeModels =
PathTypeModelFactory.Singleton.Run(
person.Household.RandomUtility,
homeParcel,
schoolParcel,
Global.Settings.Times.EightAM,
Global.Settings.Times.ThreePM,
Global.Settings.Purposes.School,
Global.Coefficients_BaseCostCoefficientPerMonetaryUnit,
Global.Configuration.Coefficients_MeanTimeCoefficient_Other,
true,
1,
1,
false,
1.0,
false,
Global.Settings.Modes.Transit);
IPathTypeModel path = pathTypeModels.First();
schoolGenTimeWithPass = path.GeneralizedTimeLogsum;
}
const double inflection = 0.50;
double homeTranDist1 = Math.Pow(Math.Min(inflection, homeTranDist), 2.0);
double homeTranDist2 = Math.Pow(Math.Max(homeTranDist - inflection, 0), 0.5);
// var workTranDist1 = Math.Pow(Math.Min(inflection, workTranDist),2.0);
// var workTranDist2 = Math.Pow(Math.Max(workTranDist - inflection, 0),0.5);
const double minimumAggLogsum = -15.0;
int votSegment = person.Household.GetVotALSegment();
int homeTaSegment = homeParcel.TransitAccessSegment();
double homeAggregateLogsumNoCar = Math.Max(minimumAggLogsum, Global.AggregateLogsums[homeParcel.ZoneId][Global.Settings.Purposes.HomeBasedComposite][Global.Settings.CarOwnerships.NoCars][votSegment][homeTaSegment]);
int workTaSegment = workParcelMissing ? 0 : workParcel.TransitAccessSegment();
double workAggregateLogsumNoCar =
workParcelMissing
? 0
: Math.Max(minimumAggLogsum, Global.AggregateLogsums[workParcel.ZoneId][Global.Settings.Purposes.WorkBased][Global.Settings.CarOwnerships.NoCars][votSegment][workTaSegment]);
int schoolTaSegment = schoolParcelMissing ? 0 : schoolParcel.TransitAccessSegment();
double schoolAggregateLogsumNoCar =
schoolParcelMissing
? 0
: Math.Max(minimumAggLogsum, Global.AggregateLogsums[schoolParcel.ZoneId][Global.Settings.Purposes.WorkBased][Global.Settings.CarOwnerships.NoCars][votSegment][schoolTaSegment]);
double transitPassCostChange = !Global.Configuration.IsInEstimationMode ? Global.Configuration.PathImpedance_TransitPassCostPercentChangeVersusBase : 0;
double workTourLogsumDifference = 0D; // (full or part-time workers) full car ownership vs. no car ownership
double schoolTourLogsumDifference = 0D; // (school) full car ownership vs. no car ownership
Framework.DomainModels.Wrappers.IHouseholdWrapper household = person.Household;
if (person.UsualWorkParcel != null && person.UsualWorkParcelId != household.ResidenceParcelId)
{
int destinationArrivalTime = ChoiceModelUtility.GetDestinationArrivalTime(Global.Settings.Models.WorkTourModeModel);
int destinationDepartureTime = ChoiceModelUtility.GetDestinationDepartureTime(Global.Settings.Models.WorkTourModeModel);
//JLB 201602
//var nestedAlternative1 = Global.ChoiceModelSession.Get<WorkTourModeTimeModel>().RunNested(person, household.ResidenceParcel, person.UsualWorkParcel, destinationArrivalTime, destinationDepartureTime, household.VehiclesAvailable, 1.0);
//var nestedAlternative2 = Global.ChoiceModelSession.Get<WorkTourModeTimeModel>().RunNested(person, household.ResidenceParcel, person.UsualWorkParcel, destinationArrivalTime, destinationDepartureTime, household.VehiclesAvailable, 0.0);
ChoiceProbabilityCalculator.Alternative nestedAlternative1 = Global.ChoiceModelSession.Get <TourModeTimeModel>().RunNested(person, household.ResidenceParcel, person.UsualWorkParcel, destinationArrivalTime, destinationDepartureTime, household.VehiclesAvailable, 1.0, Global.Settings.Purposes.Work);
ChoiceProbabilityCalculator.Alternative nestedAlternative2 = Global.ChoiceModelSession.Get <TourModeTimeModel>().RunNested(person, household.ResidenceParcel, person.UsualWorkParcel, destinationArrivalTime, destinationDepartureTime, household.VehiclesAvailable, 0.0, Global.Settings.Purposes.Work);
workTourLogsumDifference = nestedAlternative1 == null ? 0 : nestedAlternative1.ComputeLogsum();
workTourLogsumDifference = nestedAlternative2 == null ? 0 : nestedAlternative2.ComputeLogsum();
}
if (person.UsualSchoolParcel != null && person.UsualSchoolParcelId != household.ResidenceParcelId)
{
int destinationArrivalTime = ChoiceModelUtility.GetDestinationArrivalTime(Global.Settings.Models.SchoolTourModeModel);
int destinationDepartureTime = ChoiceModelUtility.GetDestinationDepartureTime(Global.Settings.Models.SchoolTourModeModel);
//JLB 201602
//var nestedAlternative1 = Global.ChoiceModelSession.Get<SchoolTourModeTimeModel>().RunNested(person, household.ResidenceParcel, person.UsualSchoolParcel, destinationArrivalTime, destinationDepartureTime, household.VehiclesAvailable, 1.0);
//var nestedAlternative2 = Global.ChoiceModelSession.Get<SchoolTourModeTimeModel>().RunNested(person, household.ResidenceParcel, person.UsualSchoolParcel, destinationArrivalTime, destinationDepartureTime, household.VehiclesAvailable, 0.0);
ChoiceProbabilityCalculator.Alternative nestedAlternative1 = Global.ChoiceModelSession.Get <TourModeTimeModel>().RunNested(person, household.ResidenceParcel, person.UsualSchoolParcel, destinationArrivalTime, destinationDepartureTime, household.VehiclesAvailable, 1.0, Global.Settings.Purposes.School);
ChoiceProbabilityCalculator.Alternative nestedAlternative2 = Global.ChoiceModelSession.Get <TourModeTimeModel>().RunNested(person, household.ResidenceParcel, person.UsualSchoolParcel, destinationArrivalTime, destinationDepartureTime, household.VehiclesAvailable, 0.0, Global.Settings.Purposes.School);
schoolTourLogsumDifference = nestedAlternative1 == null ? 0 : nestedAlternative1.ComputeLogsum();
schoolTourLogsumDifference = nestedAlternative2 == null ? 0 : nestedAlternative2.ComputeLogsum();
}
//Stefan variables
double netIncomeNetCarOwnership = Math.Max(0, (person.Household.Income / 1000.0) / 2.0 - 2.441 * 15.0 * person.Household.VehiclesAvailable); //net income minus annual cost to use household's cars in 1000s of DKK
//set household characteristics here that depend on person characteristics
int numberAdults = 0;
int numberChildren = 0;
foreach (PersonWrapper p in person.Household.Persons)
{
if (p.Age >= 18)
{
numberAdults++;
}
else
{
numberChildren++;
}
}
Framework.DomainModels.Wrappers.IParcelWrapper usualParcel = person.IsFullOrPartTimeWorker ? person.UsualWorkParcel : null;
usualParcel = (usualParcel == null && person.UsualSchoolParcel != null) ? person.UsualSchoolParcel : null;
int parkingSearchTime = 0;
double commuteDistance = 0.0;
int parkingCost = 0;
int model = 3;
if (usualParcel != null)
{
//parkingSearchTime = usualParcel.PSearchTime07_08; //uncomment when the new parcel attributes have been defined
commuteDistance = ImpedanceRoster.GetValue("distance", Global.Settings.Modes.Sov, Global.Settings.PathTypes.FullNetwork, 1.0, Global.Settings.Times.EightAM, household.ResidenceParcel, usualParcel).Variable;
//parkingCost = usualParcel.ParkingCostPerHour8_18; //uncomment when the new parcel attributes have been defined
if (person.IsFulltimeWorker && usualParcel == person.UsualWorkParcel)
{
parkingCost = parkingCost * 8;
model = 1;
}
else if (person.IsPartTimeWorker && usualParcel == person.UsualWorkParcel)
{
parkingCost = parkingCost * 4;
model = 1;
}
else
{
parkingCost = parkingCost * 6; // parking for school
model = 2;
}
}
// 0 No transit pass
ChoiceProbabilityCalculator.Alternative alternative = choiceProbabilityCalculator.GetAlternative(0, true, choice == 0);
alternative.Choice = 0;
alternative.AddUtilityTerm(1, 0.0);
// 1 Transit pass
double stefanUtility = 0.0;
alternative = choiceProbabilityCalculator.GetAlternative(1, true, choice == 1);
alternative.Choice = 1;
if (model == 1 && person.Household.VehiclesAvailable == 0)
{
double beta001 = -0.33;
double beta002 = -0.34;
double beta003 = -1.15;
double beta004 = -0.34;
double beta005 = 0.0;
double beta006 = 0.0;
double beta007 = 0.0;
double beta008 = 0.0;
double beta009 = 0.0;
double beta010 = 0.0;
double beta011 = 0.0;
double beta012 = 0.0;
stefanUtility =
beta001 * 1.0 +
beta002 * numberChildren +
beta003 * netIncomeNetCarOwnership +
beta004 * person.IsMale.ToFlag() +
beta005 * (person.IsAdultFemale && numberAdults == 1).ToFlag() +
beta006 * (person.IsAdultFemale && numberAdults > 1).ToFlag() +
beta007 * person.Age +
beta008 * Math.Pow(person.Age, 2.0) +
beta009 * (person.Household.VehiclesAvailable >= 2).ToFlag() +
beta010 * (person.IsAdultMale && numberAdults == 1).ToFlag() +
beta011 * Math.Min(person.Household.ResidenceParcel.DistanceToLocalBus, 2.0) +
beta012 * Math.Min(5.0, person.Household.ResidenceParcel.DistanceToExpressBus) +
0.0;
//Stefan utility
//alternative.AddUtilityTerm(1, 1.0);
//alternative.AddUtilityTerm(2, numberChildren);
//alternative.AddUtilityTerm(3, netIncomeNetCarOwnership);
//alternative.AddUtilityTerm(4, person.IsMale.ToFlag());
//alternative.AddUtilityTerm(5, (person.IsAdultFemale && numberAdults == 1).ToFlag());
//alternative.AddUtilityTerm(6, (person.IsAdultFemale && numberAdults > 1).ToFlag());
//alternative.AddUtilityTerm(7, person.Age);
//alternative.AddUtilityTerm(8, Math.Pow(person.Age, 2.0));
//non-worker/non-student models only
//alternative.AddUtilityTerm(9, (person.Household.VehiclesAvailable >= 2).ToFlag());
//alternative.AddUtilityTerm(10, (person.IsAdultMale && numberAdults == 1).ToFlag());
//alternative.AddUtilityTerm(11, Math.Min(person.Household.ResidenceParcel.DistanceToLocalBus, 2.0));
//alternative.AddUtilityTerm(12, Math.Min(5.0, person.Household.ResidenceParcel.DistanceToExpressBus));
alternative.AddUtilityTerm(1, stefanUtility); // this composite replaces terms *1-*12 above
//Stefan impedance (try replacign these with logsums)
alternative.AddUtilityTerm(13, Math.Min(person.Household.ResidenceParcel.DistanceToLocalBus, person.Household.ResidenceParcel.DistanceToExpressBus));
alternative.AddUtilityTerm(14, (commuteDistance > 0 && commuteDistance < 3).ToFlag());
alternative.AddUtilityTerm(15, (commuteDistance >= 7 && commuteDistance < 13).ToFlag());
alternative.AddUtilityTerm(16, (commuteDistance >= 13).ToFlag());
alternative.AddUtilityTerm(17, parkingCost);
alternative.AddUtilityTerm(18, parkingSearchTime);
//commute logsum difference variable (with and without transit pass)
alternative.AddUtilityTerm(19, workTourLogsumDifference);
}
else if (model == 1 && person.Household.VehiclesAvailable == 1)
{
double beta101 = -1.16;
int beta102 = 0;
int beta103 = 0;
int beta104 = 0;
int beta105 = 0;
double beta106 = 0.63;
double beta107 = -0.76;
double beta108 = 0.09;
int beta109 = 0;
int beta110 = 0;
int beta111 = 0;
int beta112 = 0;
stefanUtility =
beta101 * 1.0 +
beta102 * numberChildren +
beta103 * netIncomeNetCarOwnership +
beta104 * person.IsMale.ToFlag() +
beta105 * (person.IsAdultFemale && numberAdults == 1).ToFlag() +
beta106 * (person.IsAdultFemale && numberAdults > 1).ToFlag() +
beta107 * person.Age +
beta108 * Math.Pow(person.Age, 2.0) +
beta109 * (person.Household.VehiclesAvailable >= 2).ToFlag() +
beta110 * (person.IsAdultMale && numberAdults == 1).ToFlag() +
beta111 * Math.Min(person.Household.ResidenceParcel.DistanceToLocalBus, 2.0) +
beta112 * Math.Min(5.0, person.Household.ResidenceParcel.DistanceToExpressBus) +
0.0;
//Stefan utility
//alternative.AddUtilityTerm(101, 1.0);
//alternative.AddUtilityTerm(102, numberChildren);
//alternative.AddUtilityTerm(103, netIncomeNetCarOwnership);
//alternative.AddUtilityTerm(104, person.IsMale.ToFlag());
//alternative.AddUtilityTerm(105, (person.IsAdultFemale && numberAdults == 1).ToFlag());
//alternative.AddUtilityTerm(106, (person.IsAdultFemale && numberAdults > 1).ToFlag());
//alternative.AddUtilityTerm(107, person.Age);
//alternative.AddUtilityTerm(108, Math.Pow(person.Age, 2.0));
////non-worker/non-student models only
//alternative.AddUtilityTerm(109, (person.Household.VehiclesAvailable >= 2).ToFlag());
//alternative.AddUtilityTerm(110, (person.IsAdultMale && numberAdults == 1).ToFlag());
//alternative.AddUtilityTerm(111, Math.Min(person.Household.ResidenceParcel.DistanceToLocalBus, 2.0));
//alternative.AddUtilityTerm(112, Math.Min(5.0, person.Household.ResidenceParcel.DistanceToExpressBus));
alternative.AddUtilityTerm(101, stefanUtility); // this composite replaces terms *1-*12 above
//Stefan impedance (try replacign these with logsums)
alternative.AddUtilityTerm(113, Math.Min(person.Household.ResidenceParcel.DistanceToLocalBus, person.Household.ResidenceParcel.DistanceToExpressBus));
alternative.AddUtilityTerm(114, (commuteDistance > 0 && commuteDistance < 3).ToFlag());
alternative.AddUtilityTerm(115, (commuteDistance >= 7 && commuteDistance < 13).ToFlag());
alternative.AddUtilityTerm(116, (commuteDistance >= 13).ToFlag());
alternative.AddUtilityTerm(117, parkingCost);
alternative.AddUtilityTerm(118, parkingSearchTime);
//commute logsum difference variable (with and without transit pass)
alternative.AddUtilityTerm(119, workTourLogsumDifference);
}
else if (model == 1 && person.Household.VehiclesAvailable >= 2)
{
double beta201 = -0.54;
int beta202 = 0;
int beta203 = 0;
int beta204 = 0;
double beta205 = 1.35;
double beta206 = 0.42;
double beta207 = -1.5;
double beta208 = 0.17;
int beta209 = 0;
int beta210 = 0;
int beta211 = 0;
int beta212 = 0;
stefanUtility =
beta201 * 1.0 +
beta202 * numberChildren +
beta203 * netIncomeNetCarOwnership +
beta204 * person.IsMale.ToFlag() +
beta205 * (person.IsAdultFemale && numberAdults == 1).ToFlag() +
beta206 * (person.IsAdultFemale && numberAdults > 1).ToFlag() +
beta207 * person.Age +
beta208 * Math.Pow(person.Age, 2.0) +
beta209 * (person.Household.VehiclesAvailable >= 2).ToFlag() +
beta210 * (person.IsAdultMale && numberAdults == 1).ToFlag() +
beta211 * Math.Min(person.Household.ResidenceParcel.DistanceToLocalBus, 2.0) +
beta212 * Math.Min(5.0, person.Household.ResidenceParcel.DistanceToExpressBus) +
0.0;
//Stefan utility
//alternative.AddUtilityTerm(201, 1.0);
//alternative.AddUtilityTerm(202, numberChildren);
//alternative.AddUtilityTerm(203, netIncomeNetCarOwnership);
//alternative.AddUtilityTerm(204, person.IsMale.ToFlag());
//alternative.AddUtilityTerm(205, (person.IsAdultFemale && numberAdults == 1).ToFlag());
//alternative.AddUtilityTerm(206, (person.IsAdultFemale && numberAdults > 1).ToFlag());
//alternative.AddUtilityTerm(207, person.Age);
//alternative.AddUtilityTerm(208, Math.Pow(person.Age, 2.0));
//non-worker/non-student models only
//alternative.AddUtilityTerm(209, (person.Household.VehiclesAvailable >= 2).ToFlag());
//alternative.AddUtilityTerm(210, (person.IsAdultMale && numberAdults == 1).ToFlag());
//alternative.AddUtilityTerm(211, Math.Min(person.Household.ResidenceParcel.DistanceToLocalBus, 2.0));
//alternative.AddUtilityTerm(212, Math.Min(5.0, person.Household.ResidenceParcel.DistanceToExpressBus));
alternative.AddUtilityTerm(201, stefanUtility); // this composite replaces terms *1-*12 above
//Stefan impedance (try replacign these with logsums)
alternative.AddUtilityTerm(213, Math.Min(person.Household.ResidenceParcel.DistanceToLocalBus, person.Household.ResidenceParcel.DistanceToExpressBus));
alternative.AddUtilityTerm(214, (commuteDistance > 0 && commuteDistance < 3).ToFlag());
alternative.AddUtilityTerm(215, (commuteDistance >= 7 && commuteDistance < 13).ToFlag());
alternative.AddUtilityTerm(216, (commuteDistance >= 13).ToFlag());
alternative.AddUtilityTerm(217, parkingCost);
alternative.AddUtilityTerm(218, parkingSearchTime);
//commute logsum difference variable (with and without transit pass)
alternative.AddUtilityTerm(219, workTourLogsumDifference);
}
else if (model == 2 && person.Household.VehiclesAvailable == 0)
{
double beta301 = 4.74;
double beta302 = 0.39;
int beta303 = 0;
int beta304 = 0;
int beta305 = 0;
int beta306 = 0;
double beta307 = -3.95;
double beta308 = 0.62;
int beta309 = 0;
int beta310 = 0;
int beta311 = 0;
int beta312 = 0;
stefanUtility =
beta301 * 1.0 +
beta302 * numberChildren +
beta303 * netIncomeNetCarOwnership +
beta304 * person.IsMale.ToFlag() +
beta305 * (person.IsAdultFemale && numberAdults == 1).ToFlag() +
beta306 * (person.IsAdultFemale && numberAdults > 1).ToFlag() +
beta307 * person.Age +
beta308 * Math.Pow(person.Age, 2.0) +
beta309 * (person.Household.VehiclesAvailable >= 2).ToFlag() +
beta310 * (person.IsAdultMale && numberAdults == 1).ToFlag() +
beta311 * Math.Min(person.Household.ResidenceParcel.DistanceToLocalBus, 2.0) +
beta312 * Math.Min(5.0, person.Household.ResidenceParcel.DistanceToExpressBus) +
0.0;
//Stefan utility
//alternative.AddUtilityTerm(301, 1.0);
//alternative.AddUtilityTerm(302, numberChildren);
//alternative.AddUtilityTerm(303, netIncomeNetCarOwnership);
//alternative.AddUtilityTerm(304, person.IsMale.ToFlag());
//alternative.AddUtilityTerm(305, (person.IsAdultFemale && numberAdults == 1).ToFlag());
//alternative.AddUtilityTerm(306, (person.IsAdultFemale && numberAdults > 1).ToFlag());
//alternative.AddUtilityTerm(307, person.Age);
//alternative.AddUtilityTerm(308, Math.Pow(person.Age, 2.0));
////non-worker/non-student models only
//alternative.AddUtilityTerm(309, (person.Household.VehiclesAvailable >= 2).ToFlag());
//alternative.AddUtilityTerm(310, (person.IsAdultMale && numberAdults == 1).ToFlag());
//alternative.AddUtilityTerm(311, Math.Min(person.Household.ResidenceParcel.DistanceToLocalBus, 2.0));
//alternative.AddUtilityTerm(312, Math.Min(5.0, person.Household.ResidenceParcel.DistanceToExpressBus));
alternative.AddUtilityTerm(301, stefanUtility); // this composite replaces terms *1-*12 above
//Stefan impedance (try replacign these with logsums)
alternative.AddUtilityTerm(313, Math.Min(person.Household.ResidenceParcel.DistanceToLocalBus, person.Household.ResidenceParcel.DistanceToExpressBus));
alternative.AddUtilityTerm(314, (commuteDistance > 0 && commuteDistance < 3).ToFlag());
alternative.AddUtilityTerm(315, (commuteDistance >= 7 && commuteDistance < 13).ToFlag());
alternative.AddUtilityTerm(316, (commuteDistance >= 13).ToFlag());
alternative.AddUtilityTerm(317, parkingCost);
alternative.AddUtilityTerm(318, parkingSearchTime);
//commute logsum difference variable (with and without transit pass)
alternative.AddUtilityTerm(319, schoolTourLogsumDifference);
}
else if (model == 2 && person.Household.VehiclesAvailable >= 1)
{
double beta401 = 3.75;
int beta402 = 0;
int beta403 = 0;
int beta404 = 0;
int beta405 = 0;
int beta406 = 0;
double beta407 = 2.81;
double beta408 = 0.33;
int beta409 = 0;
int beta410 = 0;
int beta411 = 0;
int beta412 = 0;
stefanUtility =
beta401 * 1.0 +
beta402 * numberChildren +
beta403 * netIncomeNetCarOwnership +
beta404 * person.IsMale.ToFlag() +
beta405 * (person.IsAdultFemale && numberAdults == 1).ToFlag() +
beta406 * (person.IsAdultFemale && numberAdults > 1).ToFlag() +
beta407 * person.Age +
beta408 * Math.Pow(person.Age, 2.0) +
beta409 * (person.Household.VehiclesAvailable >= 2).ToFlag() +
beta410 * (person.IsAdultMale && numberAdults == 1).ToFlag() +
beta411 * Math.Min(person.Household.ResidenceParcel.DistanceToLocalBus, 2.0) +
beta412 * Math.Min(5.0, person.Household.ResidenceParcel.DistanceToExpressBus) +
0.0;
//Stefan utility
//alternative.AddUtilityTerm(401, 1.0);
//alternative.AddUtilityTerm(402, numberChildren);
//alternative.AddUtilityTerm(403, netIncomeNetCarOwnership);
//alternative.AddUtilityTerm(404, person.IsMale.ToFlag());
//alternative.AddUtilityTerm(405, (person.IsAdultFemale && numberAdults == 1).ToFlag());
//alternative.AddUtilityTerm(406, (person.IsAdultFemale && numberAdults > 1).ToFlag());
//alternative.AddUtilityTerm(407, person.Age);
//alternative.AddUtilityTerm(408, Math.Pow(person.Age, 2.0));
////non-worker/non-student models only
//alternative.AddUtilityTerm(409, (person.Household.VehiclesAvailable >= 2).ToFlag());
//alternative.AddUtilityTerm(410, (person.IsAdultMale && numberAdults == 1).ToFlag());
//alternative.AddUtilityTerm(411, Math.Min(person.Household.ResidenceParcel.DistanceToLocalBus, 2.0));
//alternative.AddUtilityTerm(412, Math.Min(5.0, person.Household.ResidenceParcel.DistanceToExpressBus));
alternative.AddUtilityTerm(401, stefanUtility); // this composite replaces terms *1-*12 above
//Stefan impedance (try replacign these with logsums)
alternative.AddUtilityTerm(413, Math.Min(person.Household.ResidenceParcel.DistanceToLocalBus, person.Household.ResidenceParcel.DistanceToExpressBus));
alternative.AddUtilityTerm(414, (commuteDistance > 0 && commuteDistance < 3).ToFlag());
alternative.AddUtilityTerm(415, (commuteDistance >= 7 && commuteDistance < 13).ToFlag());
alternative.AddUtilityTerm(416, (commuteDistance >= 13).ToFlag());
alternative.AddUtilityTerm(417, parkingCost);
alternative.AddUtilityTerm(418, parkingSearchTime);
//commute logsum difference variable (with and without transit pass)
alternative.AddUtilityTerm(419, schoolTourLogsumDifference);
}
else if (model == 3 && person.Household.VehiclesAvailable == 0)
{
double beta501 = 0.05;
int beta502 = 0;
int beta503 = 0;
int beta504 = 0;
double beta505 = 0.56;
double beta506 = 0.41;
int beta507 = 0;
int beta508 = 0;
int beta509 = 0;
int beta510 = 0;
double beta511 = -0.45;
int beta512 = 0;
stefanUtility =
beta501 * 1.0 +
beta502 * numberChildren +
beta503 * netIncomeNetCarOwnership +
beta504 * person.IsMale.ToFlag() +
beta505 * (person.IsAdultFemale && numberAdults == 1).ToFlag() +
beta506 * (person.IsAdultFemale && numberAdults > 1).ToFlag() +
beta507 * person.Age +
beta508 * Math.Pow(person.Age, 2.0) +
beta509 * (person.Household.VehiclesAvailable >= 2).ToFlag() +
beta510 * (person.IsAdultMale && numberAdults == 1).ToFlag() +
beta511 * Math.Min(person.Household.ResidenceParcel.DistanceToLocalBus, 2.0) +
beta512 * Math.Min(5.0, person.Household.ResidenceParcel.DistanceToExpressBus) +
0.0;
//Stefan utility
//alternative.AddUtilityTerm(501, 1.0);
//alternative.AddUtilityTerm(502, numberChildren);
//alternative.AddUtilityTerm(503, netIncomeNetCarOwnership);
//alternative.AddUtilityTerm(504, person.IsMale.ToFlag());
//alternative.AddUtilityTerm(505, (person.IsAdultFemale && numberAdults == 1).ToFlag());
//alternative.AddUtilityTerm(506, (person.IsAdultFemale && numberAdults > 1).ToFlag());
//alternative.AddUtilityTerm(507, person.Age);
//alternative.AddUtilityTerm(508, Math.Pow(person.Age, 2.0));
////non-worker/non-student models only
//alternative.AddUtilityTerm(509, (person.Household.VehiclesAvailable >= 2).ToFlag());
//alternative.AddUtilityTerm(510, (person.IsAdultMale && numberAdults == 1).ToFlag());
//alternative.AddUtilityTerm(511, Math.Min(person.Household.ResidenceParcel.DistanceToLocalBus, 2.0));
//alternative.AddUtilityTerm(512, Math.Min(5.0, person.Household.ResidenceParcel.DistanceToExpressBus));
alternative.AddUtilityTerm(501, stefanUtility); // this composite replaces terms *1-*12 above
}
else //(model == 3 && person.Household.VehiclesAvailable >= 1)
{
double beta601 = -1.7;
int beta602 = 0;
double beta603 = 0.47;
int beta604 = 0;
double beta605 = 0.63;
double beta606 = 0.46;
int beta607 = 0;
int beta608 = 0;
double beta609 = -0.32;
double beta610 = 0.35;
double beta611 = -0.37;
double beta612 = -0.09;
stefanUtility =
beta601 * 1.0 +
beta602 * numberChildren +
beta603 * netIncomeNetCarOwnership +
beta604 * person.IsMale.ToFlag() +
beta605 * (person.IsAdultFemale && numberAdults == 1).ToFlag() +
beta606 * (person.IsAdultFemale && numberAdults > 1).ToFlag() +
beta607 * person.Age +
beta608 * Math.Pow(person.Age, 2.0) +
beta609 * (person.Household.VehiclesAvailable >= 2).ToFlag() +
beta610 * (person.IsAdultMale && numberAdults == 1).ToFlag() +
beta611 * Math.Min(person.Household.ResidenceParcel.DistanceToLocalBus, 2.0) +
beta612 * Math.Min(5.0, person.Household.ResidenceParcel.DistanceToExpressBus) +
0.0;
//Stefan utility
//alternative.AddUtilityTerm(601, 1.0);
//alternative.AddUtilityTerm(602, numberChildren);
//alternative.AddUtilityTerm(603, netIncomeNetCarOwnership);
//alternative.AddUtilityTerm(604, person.IsMale.ToFlag());
//alternative.AddUtilityTerm(605, (person.IsAdultFemale && numberAdults == 1).ToFlag());
//alternative.AddUtilityTerm(606, (person.IsAdultFemale && numberAdults > 1).ToFlag());
//alternative.AddUtilityTerm(607, person.Age);
//alternative.AddUtilityTerm(608, Math.Pow(person.Age, 2.0));
//non-worker/non-student models only
//alternative.AddUtilityTerm(609, (person.Household.VehiclesAvailable >= 2).ToFlag());
//alternative.AddUtilityTerm(610, (person.IsAdultMale && numberAdults == 1).ToFlag());
//alternative.AddUtilityTerm(611, Math.Min(person.Household.ResidenceParcel.DistanceToLocalBus, 2.0));
//alternative.AddUtilityTerm(612, Math.Min(5.0, person.Household.ResidenceParcel.DistanceToExpressBus));
alternative.AddUtilityTerm(601, stefanUtility); // this composite replaces terms *1-*12 above
}
//alternative.AddUtilityTerm(2, person.IsPartTimeWorker.ToFlag());
//alternative.AddUtilityTerm(3, (person.IsWorker && person.IsNotFullOrPartTimeWorker).ToFlag());
//alternative.AddUtilityTerm(4, person.IsUniversityStudent.ToFlag());
//alternative.AddUtilityTerm(5, person.IsRetiredAdult.ToFlag());
//alternative.AddUtilityTerm(6, person.IsNonworkingAdult.ToFlag());
//alternative.AddUtilityTerm(7, person.IsDrivingAgeStudent.ToFlag());
//alternative.AddUtilityTerm(8, person.IsChildUnder16.ToFlag());
//alternative.AddUtilityTerm(9, Math.Log(Math.Max(1, person.Household.Income)));
//alternative.AddUtilityTerm(10, person.Household.HasMissingIncome.ToFlag());
//alternative.AddUtilityTerm(11, workParcelMissing.ToFlag());
//alternative.AddUtilityTerm(12, schoolParcelMissing.ToFlag());
//alternative.AddUtilityTerm(13, (homeTranDist < 90.0) ? homeTranDist1 : 0);
//alternative.AddUtilityTerm(14, (homeTranDist < 90.0) ? homeTranDist2 : 0);
//alternative.AddUtilityTerm(15, (homeTranDist > 90.0) ? 1 : 0);
// //alternative.AddUtility(16, (workTranDist < 90.0) ? workTranDist : 0);
// //alternative.AddUtility(17, (workTranDist < 90.0) ? workTranDist2 : 0);
// //alternative.AddUtility(18, (workTranDist > 90.0) ? 1 : 0);
// //alternative.AddUtility(19, (schoolTranDist < 90.0) ? schoolTranDist : 0);
// //alternative.AddUtility(20, (schoolTranDist > 90.0) ? 1 : 0);
// //alternative.AddUtility(21, (!workParcelMissing && workGenTimeWithPass > -90 ) ? workGenTimeWithPass : 0);
//alternative.AddUtilityTerm(22, (!workParcelMissing && workGenTimeWithPass <= -90) ? 1 : 0);
//alternative.AddUtilityTerm(23, (!workParcelMissing && workGenTimeWithPass > -90 && workGenTimeNoPass > -90) ? workGenTimeNoPass - workGenTimeWithPass : 0);
// //alternative.AddUtility(24, (!schoolParcelMissing && schoolGenTimeWithPass > -90 ) ? schoolGenTimeWithPass : 0);
//alternative.AddUtilityTerm(25, (!schoolParcelMissing && schoolGenTimeWithPass <= -90) ? 1 : 0);
//alternative.AddUtilityTerm(26, homeAggregateLogsumNoCar * (person.IsFullOrPartTimeWorker || person.IsUniversityStudent).ToFlag());
//alternative.AddUtilityTerm(27, homeAggregateLogsumNoCar * (person.IsDrivingAgeStudent || person.IsChildUnder16).ToFlag());
//alternative.AddUtilityTerm(28, homeAggregateLogsumNoCar * (person.IsNonworkingAdult).ToFlag());
//alternative.AddUtilityTerm(29, homeAggregateLogsumNoCar * (person.IsRetiredAdult).ToFlag());
//alternative.AddUtilityTerm(30, workParcelMissing ? 0 : workAggregateLogsumNoCar);
//alternative.AddUtilityTerm(31, schoolParcelMissing ? 0 : schoolAggregateLogsumNoCar);
//alternative.AddUtilityTerm(32, transitPassCostChange);
}
private void RunModel(ChoiceProbabilityCalculator choiceProbabilityCalculator, PersonDayWrapper personDay, HouseholdDayWrapper householdDay, DayPattern[] dayPatterns, DayPattern choice = null)
{
Framework.DomainModels.Wrappers.IHouseholdWrapper household = personDay.Household;
Framework.DomainModels.Wrappers.IParcelWrapper residenceParcel = household.ResidenceParcel;
Framework.DomainModels.Wrappers.IPersonWrapper person = personDay.Person;
int carsPerDriver = household.GetCarsPerDriver();
double mixedDensity = residenceParcel.MixedUse3Index2();
double intersectionDensity = residenceParcel.IntersectionDensity34Minus1Buffer2();
double[] purposeLogsums = new double[Global.Settings.Purposes.TotalPurposes + 2];
double[] atUsualLogsums = new double[3];
//var carOwnership = person.CarOwnershipSegment; //GV: sat car ownership not to impact logsums
int carOwnership = 0;
int votSegment = person.Household.GetVotALSegment();
int transitAccess = residenceParcel.TransitAccessSegment();
//GV: input 26. july 2013
// household inputs
//var childrenUnder5 = householdTotals.ChildrenUnder5;
//var childrenAge5Through15 = householdTotals.ChildrenAge5Through15;
//var nonworkingAdults = householdTotals.NonworkingAdults;
//var retiredAdults = householdTotals.RetiredAdults;
int onePersonHouseholdFlag = household.IsOnePersonHousehold.ToFlag();
int twoPersonHouseholdFlag = household.IsTwoPersonHousehold.ToFlag();
int householdCars = household.VehiclesAvailable;
//var noCarsInHouseholdFlag = HouseholdWrapper.GetNoCarsInHouseholdFlag(householdCars);
//var carsLessThanDriversFlag = household.GetCarsLessThanDriversFlag(householdCars);
//var carsLessThanWorkersFlag = household.GetCarsLessThanWorkersFlag(householdCars);
int HHwithChildrenFlag = household.HasChildren.ToFlag();
int HHwithSmallChildrenFlag = household.HasChildrenUnder5.ToFlag();
int HHwithLowIncomeFlag = (household.Income >= 300000 && household.Income < 600000).ToFlag();
int HHwithMidleIncomeFlag = (household.Income >= 600000 && household.Income < 900000).ToFlag();
int HHwithHighIncomeFlag = (household.Income >= 900000).ToFlag();
int primaryFamilyTimeFlag = householdDay.PrimaryPriorityTimeFlag;
//GV: input 26. july 2013
// person inputs
int partTimeWorkerFlag = person.IsPartTimeWorker.ToFlag();
int nonworkingAdultFlag = person.IsNonworkingAdult.ToFlag();
int universityStudentFlag = person.IsUniversityStudent.ToFlag();
int retiredAdultFlag = person.IsRetiredAdult.ToFlag();
int fullTimeWorkerFlag = person.IsFulltimeWorker.ToFlag();
int childAge5Through15Flag = person.IsChildAge5Through15.ToFlag();
int childUnder5Flag = person.IsChildUnder5.ToFlag();
int adultFlag = person.IsAdult.ToFlag();
int maleFlag = person.IsMale.ToFlag();
int femaleFlag = person.IsFemale.ToFlag();
if (person.UsualWorkParcel == null || person.UsualWorkParcelId == household.ResidenceParcelId)
{
purposeLogsums[Global.Settings.Purposes.Work] = 0;
}
else
{
int destinationArrivalTime = ChoiceModelUtility.GetDestinationArrivalTime(Global.Settings.Models.WorkTourModeModel);
int destinationDepartureTime = ChoiceModelUtility.GetDestinationDepartureTime(Global.Settings.Models.WorkTourModeModel);
//JLB 201406
//var nestedAlternative = Global.ChoiceModelSession.Get<WorkTourModeModel>().RunNested(personDay, residenceParcel, person.UsualWorkParcel, destinationArrivalTime, destinationDepartureTime, household.VehiclesAvailable);
//JLB 201602
//var nestedAlternative = Global.ChoiceModelSession.Get<WorkTourModeTimeModel>().RunNested(personDay, residenceParcel, person.UsualWorkParcel, destinationArrivalTime, destinationDepartureTime, household.VehiclesAvailable);
ChoiceProbabilityCalculator.Alternative nestedAlternative = Global.ChoiceModelSession.Get <TourModeTimeModel>().RunNested(personDay, residenceParcel, person.UsualWorkParcel, destinationArrivalTime, destinationDepartureTime, household.VehiclesAvailable, Global.Settings.Purposes.Work);
purposeLogsums[Global.Settings.Purposes.Work] = nestedAlternative == null ? 0 : nestedAlternative.ComputeLogsum();
atUsualLogsums[Global.Settings.Purposes.Work] = Global.AggregateLogsums[person.UsualWorkParcel.ZoneId][Global.Settings.Purposes.HomeBasedComposite][carOwnership][votSegment][person.UsualWorkParcel.TransitAccessSegment()];
}
if (person.UsualSchoolParcel == null || person.UsualSchoolParcelId == household.ResidenceParcelId)
{
purposeLogsums[Global.Settings.Purposes.School] = 0;
}
else
{
int destinationArrivalTime = ChoiceModelUtility.GetDestinationArrivalTime(Global.Settings.Models.SchoolTourModeModel);
int destinationDepartureTime = ChoiceModelUtility.GetDestinationDepartureTime(Global.Settings.Models.SchoolTourModeModel);
//JLB 201406
//var nestedAlternative = Global.ChoiceModelSession.Get<SchoolTourModeModel>().RunNested(personDay, residenceParcel, person.UsualSchoolParcel, destinationArrivalTime, destinationDepartureTime, household.VehiclesAvailable);
//JLB 201602
//var nestedAlternative = Global.ChoiceModelSession.Get<SchoolTourModeTimeModel>().RunNested(personDay, residenceParcel, person.UsualSchoolParcel, destinationArrivalTime, destinationDepartureTime, household.VehiclesAvailable);
ChoiceProbabilityCalculator.Alternative nestedAlternative = Global.ChoiceModelSession.Get <TourModeTimeModel>().RunNested(personDay, residenceParcel, person.UsualSchoolParcel, destinationArrivalTime, destinationDepartureTime, household.VehiclesAvailable, Global.Settings.Purposes.School);
purposeLogsums[Global.Settings.Purposes.School] = nestedAlternative == null ? 0 : nestedAlternative.ComputeLogsum();
atUsualLogsums[Global.Settings.Purposes.School] = Global.AggregateLogsums[person.UsualSchoolParcel.ZoneId][Global.Settings.Purposes.HomeBasedComposite][carOwnership][votSegment][person.UsualSchoolParcel.TransitAccessSegment()];
}
double compositeLogsum = Global.AggregateLogsums[household.ResidenceZoneId][Global.Settings.Purposes.HomeBasedComposite][carOwnership][votSegment][transitAccess];
purposeLogsums[Global.Settings.Purposes.Escort] = Global.AggregateLogsums[household.ResidenceZoneId][Global.Settings.Purposes.Escort][carOwnership][votSegment][transitAccess];
purposeLogsums[Global.Settings.Purposes.PersonalBusiness] = Global.AggregateLogsums[household.ResidenceZoneId][Global.Settings.Purposes.PersonalBusiness][carOwnership][votSegment][transitAccess];
purposeLogsums[Global.Settings.Purposes.Shopping] = Global.AggregateLogsums[household.ResidenceZoneId][Global.Settings.Purposes.Shopping][carOwnership][votSegment][transitAccess];
purposeLogsums[Global.Settings.Purposes.Social] = Global.AggregateLogsums[household.ResidenceZoneId][Global.Settings.Purposes.Social][carOwnership][votSegment][transitAccess];
for (int xPurpose = Global.Settings.Purposes.Escort; xPurpose <= Global.Settings.Purposes.Social + 10; xPurpose++)
{
// extra components 1-5 are for 2,3,4,5,6 tour purposes
// extra components 6-10 are for 2,3,4,5,6 stop puroposes
// recode purpose to match coefficients
int purpose = xPurpose <= Global.Settings.Purposes.Social ? xPurpose :
xPurpose <= Global.Settings.Purposes.Social + 5 ? Global.Settings.Purposes.Social + 1 :
Global.Settings.Purposes.Social + 2;
// get correct multiplier on coefficients.
double xMultiplier = xPurpose <= Global.Settings.Purposes.Social ? 1.0 :
xPurpose <= Global.Settings.Purposes.Social + 5 ? Math.Log(xPurpose - Global.Settings.Purposes.Social + 1) :
Math.Log(xPurpose - Global.Settings.Purposes.Social - 5 + 1);
choiceProbabilityCalculator.CreateUtilityComponent(xPurpose);
ChoiceProbabilityCalculator.Component component = choiceProbabilityCalculator.GetUtilityComponent(xPurpose);
component.AddUtilityTerm(100 * purpose + 1, xMultiplier * person.IsFulltimeWorker.ToFlag());
component.AddUtilityTerm(100 * purpose + 2, xMultiplier * person.IsPartTimeWorker.ToFlag());
component.AddUtilityTerm(100 * purpose + 3, xMultiplier * person.IsRetiredAdult.ToFlag());
component.AddUtilityTerm(100 * purpose + 4, xMultiplier * person.IsNonworkingAdult.ToFlag());
component.AddUtilityTerm(100 * purpose + 5, xMultiplier * person.IsUniversityStudent.ToFlag());
component.AddUtilityTerm(100 * purpose + 6, xMultiplier * person.IsDrivingAgeStudent.ToFlag());
component.AddUtilityTerm(100 * purpose + 7, xMultiplier * person.IsChildAge5Through15.ToFlag());
component.AddUtilityTerm(100 * purpose + 8, xMultiplier * person.IsChildUnder5.ToFlag());
component.AddUtilityTerm(100 * purpose + 9, xMultiplier * HHwithLowIncomeFlag);
component.AddUtilityTerm(100 * purpose + 10, xMultiplier * HHwithMidleIncomeFlag);
component.AddUtilityTerm(100 * purpose + 11, xMultiplier * HHwithHighIncomeFlag);
//component.AddUtilityTerm(100 * purpose + 12, xMultiplier * carsPerDriver);
component.AddUtilityTerm(100 * purpose + 12, xMultiplier * householdCars);
component.AddUtilityTerm(100 * purpose + 13, xMultiplier * person.IsOnlyAdult().ToFlag());
component.AddUtilityTerm(100 * purpose + 14, xMultiplier * person.IsOnlyFullOrPartTimeWorker().ToFlag());
component.AddUtilityTerm(100 * purpose + 15, xMultiplier * 0);
component.AddUtilityTerm(100 * purpose + 16, xMultiplier * person.IsFemale.ToFlag() * person.IsAdult.ToFlag() * (!household.HasChildrenUnder16).ToFlag());
component.AddUtilityTerm(100 * purpose + 17, xMultiplier * person.IsFemale.ToFlag() * person.IsAdult.ToFlag() * household.HasChildrenUnder5.ToFlag());
component.AddUtilityTerm(100 * purpose + 18, xMultiplier * person.IsFemale.ToFlag() * person.IsAdult.ToFlag() * household.HasChildrenAge5Through15.ToFlag());
component.AddUtilityTerm(100 * purpose + 19, xMultiplier * person.IsMale.ToFlag() * person.IsAdult.ToFlag() * household.HasChildrenUnder5.ToFlag());
component.AddUtilityTerm(100 * purpose + 20, xMultiplier * person.IsMale.ToFlag() * person.IsAdult.ToFlag() * household.HasChildrenAge5Through15.ToFlag());
//component.AddUtilityTerm(100 * purpose + 21, xMultiplier * primaryFamilyTimeFlag); //GV: wrong sign
//component.AddUtilityTerm(100 * purpose + 21, xMultiplier * person.AgeIsBetween18And25.ToFlag());
//component.AddUtilityTerm(100 * purpose + 22, xMultiplier * person.AgeIsBetween26And35.ToFlag());
//component.AddUtilityTerm(100 * purpose + 23, xMultiplier * person.AgeIsBetween51And65.ToFlag());
component.AddUtilityTerm(100 * purpose + 24, xMultiplier * person.WorksAtHome().ToFlag());
component.AddUtilityTerm(100 * purpose + 25, xMultiplier * mixedDensity);
component.AddUtilityTerm(100 * purpose + 26, xMultiplier * intersectionDensity);
//component.AddUtilityTerm(100 * purpose + 27, xMultiplier * purposeLogsums[purpose]); //GV: 17.08.2013, the logsums are wrong
//component.AddUtilityTerm(100 * purpose + 28, xMultiplier * person.TransitPassOwnershipFlag);
}
// tour utility
const int tourComponentIndex = 18;
choiceProbabilityCalculator.CreateUtilityComponent(tourComponentIndex);
ChoiceProbabilityCalculator.Component tourComponent = choiceProbabilityCalculator.GetUtilityComponent(tourComponentIndex);
//tourComponent.AddUtilityTerm(1701, carsPerDriver);
tourComponent.AddUtilityTerm(1701, householdCars);
tourComponent.AddUtilityTerm(1702, person.WorksAtHome().ToFlag());
tourComponent.AddUtilityTerm(1703, mixedDensity);
tourComponent.AddUtilityTerm(1704, mixedDensity * person.IsChildAge5Through15.ToFlag());
tourComponent.AddUtilityTerm(1705, compositeLogsum);
//tourComponent.AddUtilityTerm(1706, person.TransitPassOwnershipFlag);
tourComponent.AddUtilityTerm(1706, primaryFamilyTimeFlag);
// stop utility
const int stopComponentIndex = 19;
choiceProbabilityCalculator.CreateUtilityComponent(stopComponentIndex);
ChoiceProbabilityCalculator.Component stopComponent = choiceProbabilityCalculator.GetUtilityComponent(stopComponentIndex);
//stopComponent.AddUtilityTerm(1711, carsPerDriver);
stopComponent.AddUtilityTerm(1711, householdCars);
stopComponent.AddUtilityTerm(1712, person.WorksAtHome().ToFlag());
stopComponent.AddUtilityTerm(1713, mixedDensity);
stopComponent.AddUtilityTerm(1714, mixedDensity * person.IsChildAge5Through15.ToFlag());
stopComponent.AddUtilityTerm(1715, compositeLogsum);
//stopComponent.AddUtilityTerm(1716, person.TransitPassOwnershipFlag);
//stopComponent.AddUtilityTerm(1716, primaryFamilyTimeFlag); //GV: 17.08.2013, the logsums are wrong
for (int alternativeIndex = 0; alternativeIndex < TOTAL_ALTERNATIVES; alternativeIndex++)
{
DayPattern dayPattern = dayPatterns[alternativeIndex];
bool available = dayPattern.Available;
ChoiceProbabilityCalculator.Alternative alternative = choiceProbabilityCalculator.GetAlternative(alternativeIndex, available, choice != null && choice.Equals(dayPattern));
if (!Global.Configuration.IsInEstimationMode && !alternative.Available)
{
continue;
}
alternative.Choice = dayPattern;
// components for the purposes
for (int purpose = Global.Settings.Purposes.Escort; purpose <= Global.Settings.Purposes.Social; purpose++)
{
if (dayPattern.Tours[purpose] > 0 || dayPattern.Stops[purpose] > 0)
{
alternative.AddUtilityComponent(choiceProbabilityCalculator.GetUtilityComponent(purpose));
if (dayPattern.Tours[purpose] > 0)
{
alternative.AddUtilityTerm(100 * purpose + 50, 1); // tour purpose ASC
//alternative.AddUtilityTerm(100 * purpose + 51, purposeLogsums[purpose]); // tour purpose logsum GV: 17.08.2013, the logsums are wrong
}
if (dayPattern.Stops[purpose] > 0)
{
alternative.AddUtilityTerm(100 * purpose + 60, 1); // stop purpose ASC
//alternative.AddUtilityTerm(100 * purpose + 61, purposeLogsums[purpose]); // stop purpose logsum GV: 17.08.2013, the logsums are wrong
}
if (Global.Configuration.IsInEstimationMode)
{
//GV commented out
//alternative.AddUtilityTerm(100 * purpose + 70, 1 - person.PaperDiary);
//GV commented out
//alternative.AddUtilityTerm(100 * purpose + 71, person.ProxyResponse);
}
}
}
// multiple tour purposes component
if (dayPattern.TotalTourPurposes > 1)
{
alternative.AddUtilityComponent(choiceProbabilityCalculator.GetUtilityComponent(Global.Settings.Purposes.Social + (dayPattern.TotalTourPurposes - 1)));
}
// multiple stop purposes component
if (dayPattern.TotalStopPurposes > 1)
{
alternative.AddUtilityComponent(choiceProbabilityCalculator.GetUtilityComponent(Global.Settings.Purposes.Social + 5 + (dayPattern.TotalStopPurposes - 1)));
}
for (int tourPurpose = Global.Settings.Purposes.Work; tourPurpose <= Global.Settings.Purposes.Social; tourPurpose++)
{
for (int stopPurpose = Global.Settings.Purposes.Work; stopPurpose <= Global.Settings.Purposes.Social - 1; stopPurpose++)
{
if (tourPurpose > Global.Settings.Purposes.School && stopPurpose <= Global.Settings.Purposes.School)
{
continue;
}
if (dayPattern.Tours[tourPurpose] > 0 && dayPattern.Stops[stopPurpose] > 0)
{
alternative.AddUtilityTerm(1200 + 10 * tourPurpose + stopPurpose, 1); // tour-stop comb. utility
}
}
}
for (int tourPurpose = Global.Settings.Purposes.Work; tourPurpose <= Global.Settings.Purposes.School; tourPurpose++)
{
if (dayPattern.Tours[tourPurpose] == 1 && dayPattern.TotalStopPurposes >= 1)
{
alternative.AddUtilityTerm(1300 + 10 * tourPurpose, purposeLogsums[tourPurpose]); // usual location logsum x presence of stops in work or school pattern
alternative.AddUtilityTerm(1300 + 10 * tourPurpose + 1, compositeLogsum); // home aggregate logsum x presence of stops in work or school pattern
//alternative.AddUtilityTerm(1300 + 10 * tourPurpose + 2, atUsualLogsums[tourPurpose]); // at usual location aggregate logsum x presence of stops in work or school pattern GV: commented out as the sign is wrong
}
}
for (int tourPurpose = Global.Settings.Purposes.Work; tourPurpose <= Global.Settings.Purposes.Social - 2; tourPurpose++)
{
for (int tourPurpose2 = tourPurpose + 1; tourPurpose2 <= Global.Settings.Purposes.Social; tourPurpose2++)
{
if (dayPattern.Tours[tourPurpose] > 0 && dayPattern.Tours[tourPurpose2] > 0)
{
alternative.AddUtilityTerm(1400 + 10 * tourPurpose + tourPurpose2, 1); // tour-tour comb. utility
}
}
}
for (int tourPurpose = Global.Settings.Purposes.Business; tourPurpose <= Global.Settings.Purposes.Business; tourPurpose++)
{
for (int tourPurpose2 = Global.Settings.Purposes.Escort; tourPurpose2 <= Global.Settings.Purposes.Social; tourPurpose2++)
{
if (dayPattern.Tours[tourPurpose] > 0 && dayPattern.Tours[tourPurpose2] > 0)
{
alternative.AddUtilityTerm(1461, 1); // tour-tour comb. utility for business combos
}
}
}
for (int stopPurpose = Global.Settings.Purposes.Work; stopPurpose <= Global.Settings.Purposes.Social - 2; stopPurpose++)
{
for (int stopPurpose2 = stopPurpose + 1; stopPurpose2 <= Global.Settings.Purposes.Social; stopPurpose2++)
{
if (dayPattern.Stops[stopPurpose] > 0 && dayPattern.Stops[stopPurpose2] > 0)
{
alternative.AddUtilityTerm(1500 + 10 * stopPurpose + stopPurpose2, 1); // stop-stop comb. utility
}
}
}
if (dayPattern.TotalTourPurposes > 0 && dayPattern.TotalStopPurposes > 0)
{
int totalStopPurposes = dayPattern.TotalStopPurposes;
if (totalStopPurposes > 3)
{
totalStopPurposes = 3;
}
alternative.AddUtilityTerm(1600 + 10 * dayPattern.TotalTourPurposes + totalStopPurposes, 1); // nttour-ntstop utility
}
if (dayPattern.TotalTourPurposes - dayPattern.Tours[Global.Settings.Purposes.Work]
- dayPattern.Tours[Global.Settings.Purposes.Business]
- dayPattern.Tours[Global.Settings.Purposes.School] > 0)
{
// tour utility
alternative.AddUtilityComponent(choiceProbabilityCalculator.GetUtilityComponent(tourComponentIndex));
}
if (dayPattern.TotalStopPurposes - dayPattern.Stops[Global.Settings.Purposes.Work]
- dayPattern.Stops[Global.Settings.Purposes.Business]
- dayPattern.Stops[Global.Settings.Purposes.School] > 0)
{
// stop utility
alternative.AddUtilityComponent(choiceProbabilityCalculator.GetUtilityComponent(stopComponentIndex));
}
}
}
