GPVehicle : Différence entre versions
(→Propulsive properties initialization) |
(→Propulsive properties initialization) |
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| Ligne 32 : | Ligne 32 : | ||
<syntaxhighlight lang="java"> | <syntaxhighlight lang="java"> | ||
// PROPULSION | // PROPULSION | ||
| − | final ArrayList< | + | final ArrayList<PropulsiveProperty> enginesList = new ArrayList<PropulsiveProperty>(); |
| − | + | PropulsiveProperty prop1 = new PropulsiveProperty(1000., 320.); | |
| − | enginesList.add(new | + | prop1.setPartName("OCS"); |
| − | + | enginesList.add(prop1); | |
| − | final ArrayList< | + | PropulsiveProperty prop2 = new PropulsiveProperty(270., 150.); |
| − | + | prop2.setPartName("ACS"); | |
| + | enginesList.add(prop2); | ||
| + | final ArrayList<TankProperty> fuelTankList = new ArrayList<TankProperty>(); | ||
| + | TankProperty tank = new TankProperty(500.); | ||
| + | tank.setPartName("TANK"); | ||
| + | fuelTankList.add(tank); | ||
</syntaxhighlight> | </syntaxhighlight> | ||
Version du 9 octobre 2018 à 14:54
Sommaire
How to call it
For using the GPVehicle class, the developer has only to create such an object with these two possibilities:
- With no vehicle initialization
veh = new GPVehicle("My Vehicle");
- Or, if we want to initialize the widget with a predefined vehicle:
final CustomVehicle vehicle = new Vehicle(…); veh = new GPVehicle("My Vehicle", vehicle);
Since the V2.0 version (and thus the [PATRIUS] V4.1.1), it is now possible to use directly the Vehicle class. So, it is possible to search in [PATRIUS] documentation how it is possible to initialize such an object. We have then to instantiate this class using all the previous sub-objects described in the following paragraphs.
Note that for the previous V1.3(.1) versions, it was mandatory to use the specific GENOPUS [ http://genopus.cnes.fr/uploads/JavaDocs/V1.3.1 /fr/cnes/genopus/nonWidget/vehicle/CustomVehicle.html CustomVehicle] class.
Dry mass initialization
// DRY MASS final double dryMass = 1000.; MassProperty dryMassProperty = new MassProperty(dryMass);
Propulsive properties initialization
// PROPULSION final ArrayList<PropulsiveProperty> enginesList = new ArrayList<PropulsiveProperty>(); PropulsiveProperty prop1 = new PropulsiveProperty(1000., 320.); prop1.setPartName("OCS"); enginesList.add(prop1); PropulsiveProperty prop2 = new PropulsiveProperty(270., 150.); prop2.setPartName("ACS"); enginesList.add(prop2); final ArrayList<TankProperty> fuelTankList = new ArrayList<TankProperty>(); TankProperty tank = new TankProperty(500.); tank.setPartName("TANK"); fuelTankList.add(tank);
Note : the CustomEngine and CustomFuelTank class.
Shape characteristics initializaton
// SHAPE (HERE PARALLELEPIPED + SOLAR PANELS) final CustomParallelepiped parall = new CustomParallelepiped(4.0, 1.0, 2.0); final CustomParallelepiped solarPanels = new CustomParallelepiped(10., 0., 0.); vehicleRefSurface = new CustomVehicleSurfaceModel(parall, solarPanels);
Aerodynamic properties initialization
// AERODYNAMIC PROPERTIES (CONSTANT COEFFICIENTS) final double cd = 2.0; final double cl = 0.; final CustomAerodynamicProperties aerodynamicProperties = new CustomAerodynamicProperties(vehicleRefSurface, cd, cl);
Note: we need the shape model previously defined
Radiative properties initialization
// RADIATIVE PROPERTIES final double ka = 1.0; final double ks = 0.0; final double kd = 0.0; final RadiativeProperty rp = new RadiativeProperty(ka, ks, kd); final double absorptionCoef = 1.0; final double specularCoef = 0.0; final double diffuseCoef = 0.0; final RadiativeIRProperty rpIr = new RadiativeIRProperty(absorptionCoef, specularCoef, diffuseCoef); final CustomRadiativeProperties radiativeProperties = new CustomRadiativeProperties(rp, rpIr, vehicleRefSurface);
Note: we need the shape model previously defined
Vehicle initialization
At last, when all sub-objects are available, we have just to write this:
final CustomVehicle vehicle = new CustomVehicle(dryMassProperty, aerodynamicProperties, radiativeProperties, enginesList, fuelTankList);
Note: of course, possible to put null to some of them except for dry mass properties (a zero value for it will raise a warning as a negative one an error).
Display
With the previous initialization and by clicking on the engines and/or tanks for more information, we will have this display:
How to use it
To get a GENOPUS CustomVehicle object, we will just have to call for the getPatriusObject() method as below:
CustomVehicle vehicle = veh.getPatriusObject();
How it is stored
Here is the XML format for such a vehicle:
<Vehicle name="My_Vehicle"> <Boolean name="hasMassProperties">true</Boolean> <MassProperties name="massProperties"> <Real name="dryMass" unit="kg">1.0E3</Real> </MassProperties> <Boolean name="hasPropulsiveProperties">true</Boolean> <PropulsiveProperties name="PropulsiveProperties"> <Real name="ergMass" unit="kg">5.0E2</Real> <ComponentList name="listOfEngines"> <!--Amount of items--> <Integer name="nbItems">2</Integer> <ComponentListItem name="Item_1"> <Engine name="Engine"> <String name="name">OCS</String> <Real name="isp" unit="s">3.2E2</Real> <Real name="thrust" unit="N">1.0E3</Real> </Engine> </ComponentListItem> <ComponentListItem name="Item_2"> <Engine name="Engine"> <String name="name">ACS</String> <Real name="isp" unit="s">1.5E2</Real> <Real name="thrust" unit="N">2.7E2</Real> </Engine> </ComponentListItem> </ComponentList> <ComponentList name="listOfTanks"> <!--Amount of items--> <Integer name="nbItems">1</Integer> <ComponentListItem name="Item_1"> <FuelTank name="Fuel_Tank"> <String name="name">Tank1</String> <Real name="propMass" unit="kg">5.0E2</Real> </FuelTank> </ComponentListItem> </ComponentList> </PropulsiveProperties> <Boolean name="hasAerodynamicProperties">true</Boolean> <AerodynamicProperties name="AerodynamicProperties"> <Real name="dragCoefficient">2.0E0</Real> <Real name="liftCoefficient">0.0E0</Real> </AerodynamicProperties> <Boolean name="hasRadiativeProperties">false</Boolean> <Shape name="VehicleShape"> <String name="shapeType">Parallelepiped</String> <String name="shapeDefinitionType">Surface</String> <Real name="sx" unit="m^2">4.0E0</Real> <Real name="sy" unit="m^2">1.0E0</Real> <Real name="sz" unit="m^2">2.0E0</Real> <Boolean name="withSolarPanels">false</Boolean> </Shape> </Vehicle>
