public List <Waypoint> RasterSearchWaypointGenerator(
            string areaTargetPath, string heading, double speed, double altitude, double turnRadius,
            SwathWidthType swathType, double swathParameter)
        {
            List <Waypoint> waypoints = new List <Waypoint>();

            IAgStkObject areaTarget = root.GetObjectFromPath(areaTargetPath);

            IAgAreaTarget areaTargetObj      = (IAgAreaTarget)areaTarget;
            bool          areaTargetElActive = areaTarget.AccessConstraints.IsConstraintActive(AgEAccessConstraints.eCstrElevationAngle);
            double        restoreAngle       = 0;

            if (!areaTargetElActive)
            {
                IAgAccessCnstrAngle elevationMin = areaTarget.AccessConstraints.AddConstraint(AgEAccessConstraints.eCstrElevationAngle) as IAgAccessCnstrAngle;
                root.UnitPreferences["Angle"].SetCurrentUnit("deg");
                elevationMin.Angle = 90;
            }
            else
            {
                IAgAccessCnstrAngle elevationMin = areaTarget.AccessConstraints.GetActiveConstraint(AgEAccessConstraints.eCstrElevationAngle) as IAgAccessCnstrAngle;
                root.UnitPreferences["Angle"].SetCurrentUnit("deg");
                restoreAngle       = (double)elevationMin.Angle;
                elevationMin.Angle = 90;
            }

            double minLat = 90;
            double maxLat = -90;
            double minLon = 180;
            double maxLon = -180;

            root.UnitPreferences["Angle"].SetCurrentUnit("deg");
            switch (areaTargetObj.AreaType)
            {
            case AgEAreaType.eEllipse:
                IAgDataProviderGroup boundingProvider = areaTarget.DataProviders["Bounding Rectangle"] as IAgDataProviderGroup;
                IAgDataPrvFixed      dpElements       = boundingProvider.Group["Corner Points"] as IAgDataPrvFixed;
                IAgDrResult          atDataPrvResult  = dpElements.Exec();

                Array atLats = atDataPrvResult.DataSets.GetDataSetByName("Geodetic-Lat").GetValues();
                Array atLons = atDataPrvResult.DataSets.GetDataSetByName("Geodetic-Lon").GetValues();
                foreach (object item in atLats)
                {
                    if ((double)item > maxLat)
                    {
                        maxLat = (double)item;
                    }
                    if ((double)item < minLat)
                    {
                        minLat = (double)item;
                    }
                }
                foreach (object item in atLons)
                {
                    if ((double)item > maxLon)
                    {
                        maxLon = (double)item;
                    }
                    if ((double)item < minLon)
                    {
                        minLon = (double)item;
                    }
                }
                break;

            case AgEAreaType.ePattern:
                IAgAreaTypePatternCollection boundary = areaTargetObj.AreaTypeData as IAgAreaTypePatternCollection;

                foreach (IAgAreaTypePattern item in boundary)
                {
                    if ((double)item.Lat > maxLat)
                    {
                        maxLat = (double)item.Lat;
                    }
                    if ((double)item.Lat < minLat)
                    {
                        minLat = (double)item.Lat;
                    }

                    if ((double)item.Lon > maxLon)
                    {
                        maxLon = (double)item.Lon;
                    }
                    if ((double)item.Lon < minLon)
                    {
                        minLon = (double)item.Lon;
                    }
                }

                break;

            default:
                break;
            }
            double deltaLat = maxLat - minLat;
            double deltaLon = maxLon - minLon;

            IAgExecCmdResult cmdResult;

            switch (heading)
            {
            case "NorthSouth":
                cmdResult = root.ExecuteCommand("MeasureSurfaceDistance * " +
                                                minLat + " " + minLon + " " + minLat + " " + maxLon);
                break;

            case "EastWest":
                cmdResult = root.ExecuteCommand("MeasureSurfaceDistance * " +
                                                minLat + " " + minLon + " " + maxLat + " " + minLon);
                break;

            default:
                cmdResult = root.ExecuteCommand("MeasureSurfaceDistance * " +
                                                minLat + " " + minLon + " " + maxLat + " " + minLon);
                break;
            }



            double regionWidth = double.Parse(cmdResult[0]);

            int numPasses = DetermineNumPasses(swathType, swathParameter, altitude, regionWidth, null);

            if (numPasses < 1)
            {
                MessageBox.Show("No Passes.  Try Adjusting Swath Width Parameters");
                return(waypoints);
            }
            root.BeginUpdate();

            string           gvName        = uniqueName("gridTester", AgESTKObjectType.eGroundVehicle);
            IAgGroundVehicle groundVehicle = root.CurrentScenario.Children.New(AgESTKObjectType.eGroundVehicle, gvName) as IAgGroundVehicle;

            groundVehicle.Graphics.SetAttributesType(AgEVeGfxAttributes.eAttributesBasic);
            IAgVeGfxAttributesBasic gvGfx = groundVehicle.Graphics.Attributes as IAgVeGfxAttributesBasic;

            gvGfx.Inherit   = false;
            gvGfx.IsVisible = false;

            IAgVePropagatorGreatArc route = groundVehicle.Route as IAgVePropagatorGreatArc;

            //route.ArcGranularity = 51.333;
            route.SetAltitudeRefType(AgEVeAltitudeRef.eWayPtAltRefWGS84);
            route.Method = AgEVeWayPtCompMethod.eDetermineTimeAccFromVel;

            Waypoint waypoint1 = new Waypoint();
            Waypoint waypoint2 = new Waypoint();
            bool     headEast  = true;


            double loopMin;
            double loopMax;
            double gridAngleStep;

            switch (heading)
            {
            case "NorthSouth":
                loopMin       = minLon;
                loopMax       = maxLon;
                gridAngleStep = (maxLon - minLon) / numPasses;
                break;

            case "EastWest":
                loopMin       = minLat;
                loopMax       = maxLat;
                gridAngleStep = (maxLat - minLat) / numPasses;
                break;

            default:
                loopMin       = minLat;
                loopMax       = maxLat;
                gridAngleStep = .95 * (maxLat - minLat) / numPasses;
                break;
            }

            for (double eval = loopMin; eval <= loopMax; eval += gridAngleStep)
            {
                route.Waypoints.RemoveAll();
                IAgVeWaypointsElement thisWaypoint1;
                IAgVeWaypointsElement thisWaypoint2;
                switch (heading)
                {
                case "NorthSouth":
                    thisWaypoint1           = route.Waypoints.Add();
                    thisWaypoint1.Latitude  = minLat - gridAngleStep;
                    thisWaypoint1.Longitude = eval;
                    thisWaypoint1.Altitude  = 0;

                    thisWaypoint2           = route.Waypoints.Add();
                    thisWaypoint2.Latitude  = maxLat + gridAngleStep;
                    thisWaypoint2.Longitude = eval;
                    thisWaypoint2.Altitude  = 0;
                    break;

                case "EastWest":
                default:
                    thisWaypoint1           = route.Waypoints.Add();
                    thisWaypoint1.Latitude  = eval;
                    thisWaypoint1.Longitude = minLon - gridAngleStep;
                    thisWaypoint1.Altitude  = 0;

                    thisWaypoint2           = route.Waypoints.Add();
                    thisWaypoint2.Latitude  = eval;
                    thisWaypoint2.Longitude = maxLon + gridAngleStep;
                    thisWaypoint2.Altitude  = 0;
                    break;
                }
                route.Propagate();

                IAgStkAccess access = areaTarget.GetAccessToObject((IAgStkObject)groundVehicle);
                access.ComputeAccess();

                IAgDataPrvInterval dpAccess = access.DataProviders["Access Data"] as IAgDataPrvInterval;
                IAgScenario        scen     = root.CurrentScenario as IAgScenario;
                IAgDrResult        result   = dpAccess.Exec(scen.StartTime, scen.StopTime);


                if (result.DataSets.Count > 0)
                {
                    Array startTimes = result.DataSets.GetDataSetByName("Start Time").GetValues();
                    Array stopTimes  = result.DataSets.GetDataSetByName("Stop Time").GetValues();

                    string startTime = (string)startTimes.GetValue(0);
                    string stopTime  = (string)stopTimes.GetValue(stopTimes.GetLength(0) - 1);

                    IAgDataProviderGroup dpLLA         = ((IAgStkObject)groundVehicle).DataProviders["LLA State"] as IAgDataProviderGroup;
                    IAgDataPrvTimeVar    dpElements    = dpLLA.Group["Fixed"] as IAgDataPrvTimeVar;
                    IAgDrResult          DataPrvResult = dpElements.ExecSingle(startTime);

                    Array Lats = DataPrvResult.DataSets.GetDataSetByName("Lat").GetValues();
                    Array Lons = DataPrvResult.DataSets.GetDataSetByName("Lon").GetValues();

                    waypoint1                 = new Waypoint();
                    waypoint1.Latitude        = (double)Lats.GetValue(0);
                    waypoint1.Longitude       = (double)Lons.GetValue(0);
                    waypoint1.Altitude        = altitude;
                    waypoint1.SurfaceAltitude = 0;
                    waypoint1.Speed           = speed;
                    waypoint1.TurnRadius      = turnRadius;


                    IAgDataProviderGroup dpLLA1         = ((IAgStkObject)groundVehicle).DataProviders["LLA State"] as IAgDataProviderGroup;
                    IAgDataPrvTimeVar    dpElements1    = dpLLA1.Group["Fixed"] as IAgDataPrvTimeVar;
                    IAgDrResult          DataPrvResult1 = dpElements1.ExecSingle(stopTime);

                    Array Lats1 = DataPrvResult1.DataSets.GetDataSetByName("Lat").GetValues();
                    Array Lons1 = DataPrvResult1.DataSets.GetDataSetByName("Lon").GetValues();

                    waypoint2                 = new Waypoint();
                    waypoint2.Latitude        = (double)Lats1.GetValue(0);
                    waypoint2.Longitude       = (double)Lons1.GetValue(0);
                    waypoint2.Altitude        = altitude;
                    waypoint2.SurfaceAltitude = 0;
                    waypoint2.Speed           = speed;
                    waypoint2.TurnRadius      = turnRadius;


                    if (headEast)
                    {
                        waypoints.Add(waypoint1);
                        waypoints.Add(waypoint2);
                    }
                    else
                    {
                        waypoints.Add(waypoint2);
                        waypoints.Add(waypoint1);
                    }
                    headEast = !headEast;
                }
                access.RemoveAccess();
            }

            ((IAgStkObject)groundVehicle).Unload();

            if (!areaTargetElActive)
            {
                areaTarget.AccessConstraints.RemoveConstraint(AgEAccessConstraints.eCstrElevationAngle);
            }
            else
            {
                IAgAccessCnstrAngle elevationMin = areaTarget.AccessConstraints.GetActiveConstraint(AgEAccessConstraints.eCstrElevationAngle) as IAgAccessCnstrAngle;
                root.UnitPreferences["Angle"].SetCurrentUnit("deg");
                elevationMin.Angle = restoreAngle;
            }

            root.EndUpdate();
            root.UnitPreferences.ResetUnits();
            return(waypoints);
        }
示例#2
0
        //Main Function
        private void Generate_Click(object sender, EventArgs e)
        {
            int check = FieldCheck();

            if (check == 0)
            {
                RemoveProximityGeometry();
                try
                {
                    CommonData.StkRoot.UnitPreferences.SetCurrentUnit("Distance", "km");
                    CommonData.RunList.Clear();
                    CommonData.TargetName = TargetSat.Text;
                    CommonData.ActorName  = ActorSat.Text;
                    //Set user bounds for safety
                    double userMinRange = Double.Parse(SphericalMag.Text) / 1000;
                    double userMinR     = Double.Parse(RMag.Text) / 1000;
                    double userMinI     = Double.Parse(IMag.Text) / 1000;
                    double userMinC     = Double.Parse(CMag.Text) / 1000;

                    IAgScenario  scenario = CommonData.StkRoot.CurrentScenario as IAgScenario;
                    IAgStkObject satObj   = CommonData.StkRoot.GetObjectFromPath("Satellite/" + ActorSat.Text);
                    IAgSatellite sat      = satObj as IAgSatellite;

                    //Get all maneuver end times for actor satellite
                    IAgDataProviderGroup   maneuverDpGroup = satObj.DataProviders["Astrogator Maneuver Ephemeris Block Final"] as IAgDataProviderGroup;
                    IAgDataPrvTimeVar      maneuverDp      = maneuverDpGroup.Group["Cartesian Elems"] as IAgDataPrvTimeVar;
                    IAgDrResult            result          = maneuverDp.Exec(scenario.StartTime, scenario.StopTime, 60);
                    IAgDrDataSetCollection maneuverData    = result.DataSets;



                    //If there is maneuvers, run iterations for each maneuver. If no maneuvers then just pull closest RIC data for entire trajectory
                    if (maneuverData.Count != 0)
                    {
                        CommonData.HasManeuvers = true;

                        //Get maneuver numbers
                        IAgDataPrvInterval summaryDp     = satObj.DataProviders["Maneuver Summary"] as IAgDataPrvInterval;
                        IAgDrResult        summaryResult = summaryDp.Exec(scenario.StartTime, scenario.StopTime);
                        Array maneuverNumbers            = summaryResult.DataSets.GetDataSetByName("Maneuver Number").GetValues();
                        int   maxManeuverNum             = maneuverNumbers.Length;

                        //Get handles to cartesian position and velocity to seed passive safety runs
                        IAgDataProviderGroup cartPos   = satObj.DataProviders["Cartesian Position"] as IAgDataProviderGroup;
                        IAgDataPrvTimeVar    cartPosDP = cartPos.Group["ICRF"] as IAgDataPrvTimeVar;

                        IAgDataProviderGroup cartVel   = satObj.DataProviders["Cartesian Velocity"] as IAgDataProviderGroup;
                        IAgDataPrvTimeVar    cartVelDP = cartVel.Group["ICRF"] as IAgDataPrvTimeVar;

                        //Create passive safety satellite. Set to Astrogator and pull handles to initial state and propagate segments
                        IAgStkObject passiveSatObj = CreatorFunctions.GetCreateSatellite("PassiveCheck");
                        IAgSatellite passiveSat    = passiveSatObj as IAgSatellite;
                        passiveSat.SetPropagatorType(AgEVePropagatorType.ePropagatorAstrogator);
                        IAgVADriverMCS passiveDriver = passiveSat.Propagator as IAgVADriverMCS;

                        IAgVAMCSInitialState          intState = passiveDriver.MainSequence[0] as IAgVAMCSInitialState;
                        IAgVAMCSPropagate             prop     = passiveDriver.MainSequence[1] as IAgVAMCSPropagate;
                        IAgVAStoppingConditionElement sc1      = prop.StoppingConditions[0];
                        IAgVAStoppingCondition        sc       = sc1.Properties as IAgVAStoppingCondition;
                        sc.Trip = PropTime.Text;

                        AgVAElementCartesian element = intState.Element as AgVAElementCartesian;
                        Array    epoch;
                        Array    vx;
                        Array    vy;
                        Array    vz;
                        Array    x;
                        Array    y;
                        Array    z;
                        String   epochCur;
                        DateTime dateCur;
                        //Assign cartesian elements to PassiveCheck satellite from actor maneuver maneuver data. Run each iteration to see if resulting trajectory violates constraints
                        for (int i = 0; i < maxManeuverNum; i++)
                        {
                            //Get maneuver time and offset in time by 0.25 sec to account for boundrary conditions around impulsive maneuvers
                            epoch    = maneuverData[0 + (i * 7)].GetValues();
                            epochCur = epoch.GetValue(0).ToString();
                            dateCur  = DateTime.Parse(epochCur);
                            dateCur  = dateCur.AddMilliseconds(250);
                            //dateCur = DateTime.ParseExact(epochCur, "dd MMM yyyy HH:mm:ss.fff", CultureInfo.InvariantCulture);
                            epochCur = dateCur.ToString("dd MMM yyyy HH:mm:ss.fff");

                            //Get cartesian state vector for given time
                            result = cartPosDP.ExecSingle(epochCur);
                            x      = result.DataSets.GetDataSetByName("x").GetValues();
                            y      = result.DataSets.GetDataSetByName("y").GetValues();
                            z      = result.DataSets.GetDataSetByName("z").GetValues();

                            result = cartVelDP.ExecSingle(epochCur);
                            vx     = result.DataSets.GetDataSetByName("x").GetValues();
                            vy     = result.DataSets.GetDataSetByName("y").GetValues();
                            vz     = result.DataSets.GetDataSetByName("z").GetValues();

                            //Create passive run output to be used in visualization
                            PassiveRun run = new PassiveRun();
                            run.UserMinRange    = Double.Parse(SphericalMag.Text) / 1000;
                            run.UserMinR        = Double.Parse(RMag.Text) / 1000;
                            run.UserMinI        = Double.Parse(IMag.Text) / 1000;
                            run.UserMinC        = Double.Parse(CMag.Text) / 1000;
                            intState.OrbitEpoch = epochCur;
                            element.Vx          = Double.Parse(vx.GetValue(0).ToString());
                            element.Vy          = Double.Parse(vy.GetValue(0).ToString());
                            element.Vz          = Double.Parse(vz.GetValue(0).ToString());
                            element.X           = Double.Parse(x.GetValue(0).ToString());
                            element.Y           = Double.Parse(y.GetValue(0).ToString());
                            element.Z           = Double.Parse(z.GetValue(0).ToString());

                            passiveDriver.RunMCS();

                            run.Vx       = Double.Parse(vx.GetValue(0).ToString());
                            run.Vy       = Double.Parse(vy.GetValue(0).ToString());
                            run.Vz       = Double.Parse(vz.GetValue(0).ToString());
                            run.X        = Double.Parse(x.GetValue(0).ToString());
                            run.Y        = Double.Parse(y.GetValue(0).ToString());
                            run.Z        = Double.Parse(z.GetValue(0).ToString());
                            run.PropTime = Double.Parse(PropTime.Text);

                            //Pull closest point to target for each iteration and save to passive run output
                            IAgDataProvider psatDp = passiveSatObj.DataProviders["RIC Coordinates"] as IAgDataProvider;
                            psatDp.PreData = "Satellite/" + TargetSat.Text;
                            IAgDataPrvTimeVar psatDpTimeVar = psatDp as IAgDataPrvTimeVar;
                            IAgDrResult       psatDp2       = psatDpTimeVar.Exec(scenario.StartTime, scenario.StopTime, Double.Parse(TimeStep.Text));
                            run.Range         = psatDp2.DataSets.GetDataSetByName("Range").GetValues();
                            run.Intrack       = psatDp2.DataSets.GetDataSetByName("In-Track").GetValues();
                            run.Crosstrack    = psatDp2.DataSets.GetDataSetByName("Cross-Track").GetValues();
                            run.Radial        = psatDp2.DataSets.GetDataSetByName("Radial").GetValues();
                            run.MinRange      = MathFunctions.ArrayMin(run.Range);
                            run.MinIntrack    = MathFunctions.ArrayMinAbs(run.Intrack);
                            run.MinCrosstrack = MathFunctions.ArrayMinAbs(run.Crosstrack);
                            run.MinRadial     = MathFunctions.ArrayMinAbs(run.Radial);
                            //run.ManeuverTime = epoch.GetValue(0).ToString();
                            run.ManeuverTime = epochCur;

                            //spherical
                            if (radioButton1.Checked)
                            {
                                run.IsSpherical = true;
                                if (run.MinRange < userMinRange)
                                {
                                    run.Safe = false;
                                }
                                else
                                {
                                    run.Safe = true;
                                }
                            }
                            //independent axis
                            else
                            {
                                run.IsSpherical = false;
                                if (Math.Abs(run.MinIntrack) < userMinI && Math.Abs(run.MinRadial) < userMinR && Math.Abs(run.MinCrosstrack) < userMinC)
                                {
                                    bool tripped = false;
                                    for (int j = 0; j < run.Range.Length; j++)
                                    {
                                        if (Math.Abs(Double.Parse(run.Intrack.GetValue(j).ToString())) < userMinI && Math.Abs(Double.Parse(run.Radial.GetValue(j).ToString())) < userMinR && Math.Abs(Double.Parse(run.Crosstrack.GetValue(j).ToString())) < userMinC)
                                        {
                                            run.Safe = false;
                                            tripped  = true;
                                            break;
                                        }
                                    }
                                    if (!tripped)
                                    {
                                        run.Safe = true;
                                    }
                                }
                                else
                                {
                                    run.Safe = true;
                                }
                            }

                            CommonData.RunList.Add(run);
                        }
                    }
                    else
                    {
                        CommonData.HasManeuvers = false;
                        PassiveRun      run   = new PassiveRun();
                        IAgDataProvider satDp = satObj.DataProviders["RIC Coordinates"] as IAgDataProvider;
                        satDp.PreData = "Satellite/" + TargetSat.Text;
                        IAgDataPrvTimeVar satDpTimeVar = satDp as IAgDataPrvTimeVar;
                        IAgDrResult       satDp2       = satDpTimeVar.Exec(scenario.StartTime, scenario.StopTime, Double.Parse(TimeStep.Text));
                        run.Range         = satDp2.DataSets.GetDataSetByName("Range").GetValues();
                        run.Intrack       = satDp2.DataSets.GetDataSetByName("In-Track").GetValues();
                        run.Crosstrack    = satDp2.DataSets.GetDataSetByName("Cross-Track").GetValues();
                        run.Radial        = satDp2.DataSets.GetDataSetByName("Radial").GetValues();
                        run.MinRange      = MathFunctions.ArrayMin(run.Range);
                        run.MinIntrack    = MathFunctions.ArrayMinAbs(run.Intrack);
                        run.MinCrosstrack = MathFunctions.ArrayMinAbs(run.Crosstrack);
                        run.MinRadial     = MathFunctions.ArrayMinAbs(run.Radial);
                        run.ManeuverTime  = "N/A";

                        //spherical
                        if (radioButton1.Checked)
                        {
                            run.IsSpherical = true;
                            if (run.MinRange < userMinRange)
                            {
                                run.Safe = false;
                            }
                            else
                            {
                                run.Safe = true;
                            }
                        }
                        //independent axis
                        else
                        {
                            run.IsSpherical = false;
                            if (Math.Abs(run.MinIntrack) < userMinI && Math.Abs(run.MinRadial) < userMinR && Math.Abs(run.MinCrosstrack) < userMinC)
                            {
                                bool tripped = false;
                                for (int j = 0; j < run.Range.Length; j++)
                                {
                                    if (Math.Abs(Double.Parse(run.Intrack.GetValue(j).ToString())) < userMinI && Math.Abs(Double.Parse(run.Radial.GetValue(j).ToString())) < userMinR && Math.Abs(Double.Parse(run.Crosstrack.GetValue(j).ToString())) < userMinC)
                                    {
                                        run.Safe = false;
                                        tripped  = true;
                                        break;
                                    }
                                }
                                if (!tripped)
                                {
                                    run.Safe = true;
                                }
                            }
                            else
                            {
                                run.Safe = true;
                            }
                        }

                        CommonData.RunList.Add(run);
                    }
                    CommonData.BeenRun = true;
                }
                catch (Exception)
                {
                    MessageBox.Show("Passive Safety Check Failed");
                }
            }
        }
示例#3
0
        public Array GetDataProviders(string stkObjectPath, string DataProviderName,
                                      string GroupName, string ElementName)
        {
            string startTime = scen.StartTime.ToString();
            string stopTime  = scen.StopTime.ToString();
            double stepSize  = 60;

            IAgStkObject stkObject = root.GetObjectFromPath(stkObjectPath);

            IAgDataProviderInfo dpInfo = stkObject.DataProviders[DataProviderName];

            IAgDataProvider dataProvider = stkObject.DataProviders[DataProviderName] as IAgDataProvider;

            if (dpInfo.IsGroup())
            {
                IAgDataProviderGroup dpGroup     = dpInfo as IAgDataProviderGroup;
                IAgDataProviders     dpAvailable = dpGroup.Group;

                for (int i = 0; i < dpAvailable.Count; ++i)
                {
                    if (dpAvailable[i].Name == GroupName)
                    {
                        dataProvider = dpAvailable[i] as IAgDataProvider;
                        break;
                    }
                }
            }

            IAgDrResult dpResult = null;

            switch (dpInfo.Type)
            {
            case AgEDataProviderType.eDrFixed:
                //Fixed data doesnt change over time
                IAgDataPrvFixed dpFixed = dataProvider as IAgDataPrvFixed;
                dpResult = dpFixed.Exec();
                break;

            case AgEDataProviderType.eDrIntvl:
                //Interval data is given as a list of intervals with start, stop and duration
                IAgDataPrvInterval dpInterval = dataProvider as IAgDataPrvInterval;
                //Must provide analysis start and stop time

                dpResult = dpInterval.Exec(startTime, stopTime);
                break;

            case AgEDataProviderType.eDrTimeVar:
                //Time varyign data is given as an array of time based values
                IAgDataPrvTimeVar dpTimeVarying = dataProvider as IAgDataPrvTimeVar;
                //Must provide analysis start and stop time plus an evaluation step size
                dpResult = dpTimeVarying.Exec(startTime, stopTime, stepSize);
                break;

            default:
                break;
            }

            Array dataValues = null;

            IAgDrDataSetCollection datasets = dpResult.DataSets;

            if (datasets.Count > 0)
            {
                IAgDrDataSet thisDataset = datasets.GetDataSetByName(ElementName);

                dataValues = thisDataset.GetValues();
            }
            return(dataValues);
        }
        public void EstimateProbability()
        {
            StkAssistant.SetAnalysisIntervalFromTCA(this.Primary.EpochISOYMD);
            string primaryPath   = Primary.BaselineObjectPath;
            string primaryType   = Primary.BaselineObjectType;
            string primaryName   = primaryPath.Substring(primaryPath.LastIndexOf("/") + 1);
            string secondaryPath = Secondary.BaselineObjectPath;
            string secondaryName = secondaryPath.Substring(secondaryPath.LastIndexOf("/") + 1);

            string catName = "CAT_" + primaryName;

            int counter = 0;

            while (StkAssistant.Root.CurrentScenario.Children.Contains(AgESTKObjectType.eAdvCat, catName))
            {
                catName = "CAT_" + primaryName + "_" + (++counter).ToString();
            }

            IAgStkObject cat = StkAssistant.Root.CurrentScenario.Children.New(AgESTKObjectType.eAdvCat, catName);

            string cmdResult;

            StkAssistant.TryConnect("Save / " + primaryPath, out cmdResult);
            StkAssistant.TryConnect("Save / " + secondaryPath, out cmdResult);

            StkAssistant.TryConnect("ACAT */AdvCAT/" + catName + " TimePeriod \"" + StkAssistant.Scenario.StartTime + "\" \"" + StkAssistant.Scenario.StopTime + "\"", out cmdResult);


            StkAssistant.TryConnect("ACAT */AdvCAT/" + catName + " Primary Add \"" + primaryName + ".sa\" Cov", out cmdResult);
            StkAssistant.TryConnect("ACAT */AdvCAT/" + catName + " Secondary Add \"" + secondaryName + ".sa\" Cov", out cmdResult);

            StkAssistant.TryConnect("ACAT */AdvCAT/" + catName + " Compute ShowProgress On", out cmdResult);


            StkAssistant.TryConnect("VO */AdvCAT/" + catName + " AdvCATAttributes ShowSecondary On ShowAllSecondary On", out cmdResult);


            //StkAssistant.TryConnect("ReportCreate */AdvCAT/" + catName + " Type Display Style \"Close Approach By Min Range\"", out cmdResult);
            StkAssistant.TryConnect("ACATEvents_RM */AdvCAT/" + catName, out cmdResult);
            string catTCA;

            if (!cmdResult.Equals("No events found."))
            {
                catTCA = cmdResult.Split(',')[5];

                IAgStkObject       catObject = StkAssistant.Root.GetObjectFromPath("*/AdvCAT/" + catName);
                IAgDataPrvInterval catDP     = cat.DataProviders["Events by Min Range"] as IAgDataPrvInterval;
                IAgDrResult        catResult = catDP.Exec(StkAssistant.Scenario.StartTime, StkAssistant.Scenario.StopTime);

                double catMaxProb       = (double)catResult.DataSets.GetDataSetByName("Max Collision Probability").GetValues().GetValue(0);
                double catSigmaDilution = (double)catResult.DataSets.GetDataSetByName("Sigma Dilution Threshold").GetValues().GetValue(0);

                if (Probability == 0)
                {
                    Probability = catMaxProb;
                }
                if (SigmaDilution == 0)
                {
                    SigmaDilution = Math.Round(catSigmaDilution, 3);
                }
            }

            cat.Unload();
        }
示例#5
0
        public static PropagationResults PropagateAstrogatorSatellite(AgStkObjectRoot root, AgUiApplication app, InitialState state, TLE tle, Data satData, Uncertainty uncertainty, int runId, int nRuns, string propName)
        {
            PropagationResults propResults = new PropagationResults();

            propResults.RunNumber = runId.ToString().PadLeft(3, '0');
            IAgSatellite sat = root.CurrentScenario.Children.New(AgESTKObjectType.eSatellite, tle.GetSatNumber() + "Astrogator") as IAgSatellite;

            //Set the propagator to Astrogator
            sat.SetPropagatorType(AgEVePropagatorType.ePropagatorAstrogator);
            //get the Driver for the Propagator
            IAgVADriverMCS driver = sat.Propagator as IAgVADriverMCS;

            //Clear all segments from the MCS
            driver.MainSequence.RemoveAll();

            //// Target Sequence ////
            IAgVAMCSTargetSequence ts = driver.MainSequence.Insert(AgEVASegmentType.eVASegmentTypeTargetSequence, "SetupState", "-") as IAgVAMCSTargetSequence;

            ts.Action = AgEVATargetSeqAction.eVATargetSeqActionRunActiveProfiles;

            // add the initial state segment in the target sequence
            IAgVAMCSInitialState initState = ts.Segments.Insert(AgEVASegmentType.eVASegmentTypeInitialState, "InitialState", "-") as IAgVAMCSInitialState;

            initState.OrbitEpoch = ((IAgScenario)root.CurrentScenario).StartTime;
            // define elements
            initState.SetElementType(AgEVAElementType.eVAElementTypeCartesian);
            IAgVAElementCartesian cart = initState.Element as IAgVAElementCartesian;

            cart.X  = Convert.ToDouble(state.CartesianPosX);
            cart.Y  = Convert.ToDouble(state.CartesianPosY);
            cart.Z  = Convert.ToDouble(state.CartesianPosZ);
            cart.Vx = Convert.ToDouble(state.CartesianVelX);
            cart.Vy = Convert.ToDouble(state.CartesianVelY);
            cart.Vz = Convert.ToDouble(state.CartesianVelZ);

            // spacecraft parameters
            IAgVASpacecraftParameters spacecraftParameters = (IAgVASpacecraftParameters)initState.SpacecraftParameters;

            spacecraftParameters.DryMass  = satData.Mass;
            spacecraftParameters.Cd       = satData.Cd;
            spacecraftParameters.DragArea = satData.DragArea;
            spacecraftParameters.Cr       = satData.Cr;
            spacecraftParameters.SolarRadiationPressureArea = satData.SunArea;
            spacecraftParameters.RadiationPressureArea      = 1e-10;
            IAgVAFuelTank fuelTank = (IAgVAFuelTank)initState.FuelTank;

            fuelTank.FuelMass = 0;

            // enable the control parameter for the state variables
            initState.EnableControlParameter(AgEVAControlInitState.eVAControlInitStateCartesianX);
            initState.EnableControlParameter(AgEVAControlInitState.eVAControlInitStateCartesianY);
            initState.EnableControlParameter(AgEVAControlInitState.eVAControlInitStateCartesianZ);
            initState.EnableControlParameter(AgEVAControlInitState.eVAControlInitStateCartesianVx);
            initState.EnableControlParameter(AgEVAControlInitState.eVAControlInitStateCartesianVy);
            initState.EnableControlParameter(AgEVAControlInitState.eVAControlInitStateCartesianVz);

            // add the results
            ((IAgVAMCSSegment)initState).Results.Add("Relative Motion/InTrack");
            IAgVAStateCalcRelMotion intrackRel = ((IAgVAMCSSegment)initState).Results[0] as IAgVAStateCalcRelMotion;

            intrackRel.ReferenceSelection = AgEVACalcObjectReference.eVACalcObjectReferenceSpecified;
            IAgLinkToObject link_1 = intrackRel.Reference as IAgLinkToObject;

            link_1.BindTo("Satellite/" + tle.GetSatNumber().ToString());

            ((IAgVAMCSSegment)initState).Results.Add("Relative Motion/Radial");
            IAgVAStateCalcRelMotion radialRel = ((IAgVAMCSSegment)initState).Results[1] as IAgVAStateCalcRelMotion;

            radialRel.ReferenceSelection = AgEVACalcObjectReference.eVACalcObjectReferenceSpecified;
            IAgLinkToObject link_2 = radialRel.Reference as IAgLinkToObject;

            link_2.BindTo("Satellite/" + tle.GetSatNumber().ToString());

            ((IAgVAMCSSegment)initState).Results.Add("Relative Motion/CrossTrack");
            IAgVAStateCalcRelMotion crosstrackRel = ((IAgVAMCSSegment)initState).Results[2] as IAgVAStateCalcRelMotion;

            crosstrackRel.ReferenceSelection = AgEVACalcObjectReference.eVACalcObjectReferenceSpecified;
            IAgLinkToObject link_3 = crosstrackRel.Reference as IAgLinkToObject;

            link_3.BindTo("Satellite/" + tle.GetSatNumber().ToString());

            ((IAgVAMCSSegment)initState).Results.Add("Relative Motion/InTrackRate");
            IAgVAStateCalcRelMotion intrackrateRel = ((IAgVAMCSSegment)initState).Results[3] as IAgVAStateCalcRelMotion;

            intrackrateRel.ReferenceSelection = AgEVACalcObjectReference.eVACalcObjectReferenceSpecified;
            IAgLinkToObject link_4 = intrackrateRel.Reference as IAgLinkToObject;

            link_4.BindTo("Satellite/" + tle.GetSatNumber().ToString());

            ((IAgVAMCSSegment)initState).Results.Add("Relative Motion/RadialRate");
            IAgVAStateCalcRelMotion radialrateRel = ((IAgVAMCSSegment)initState).Results[4] as IAgVAStateCalcRelMotion;

            radialrateRel.ReferenceSelection = AgEVACalcObjectReference.eVACalcObjectReferenceSpecified;
            IAgLinkToObject link_5 = radialrateRel.Reference as IAgLinkToObject;

            link_5.BindTo("Satellite/" + tle.GetSatNumber().ToString());

            ((IAgVAMCSSegment)initState).Results.Add("Relative Motion/CrossTrackRate");
            IAgVAStateCalcRelMotion crosstrackrateRel = ((IAgVAMCSSegment)initState).Results[5] as IAgVAStateCalcRelMotion;

            crosstrackrateRel.ReferenceSelection = AgEVACalcObjectReference.eVACalcObjectReferenceSpecified;
            IAgLinkToObject link_6 = crosstrackrateRel.Reference as IAgLinkToObject;

            link_6.BindTo("Satellite/" + tle.GetSatNumber().ToString());

            /// differential corrector setup ///
            IAgVAProfileDifferentialCorrector dc = ts.Profiles["Differential Corrector"] as IAgVAProfileDifferentialCorrector;

            // control parameters
            IAgVADCControl xControlParam = dc.ControlParameters.GetControlByPaths("InitialState", "InitialState.Cartesian.X");

            xControlParam.Enable       = true;
            xControlParam.MaxStep      = 1;
            xControlParam.Perturbation = 0.1;
            IAgVADCControl yControlParam = dc.ControlParameters.GetControlByPaths("InitialState", "InitialState.Cartesian.Y");

            yControlParam.Enable       = true;
            yControlParam.MaxStep      = 1;
            yControlParam.Perturbation = 0.1;
            IAgVADCControl zControlParam = dc.ControlParameters.GetControlByPaths("InitialState", "InitialState.Cartesian.Z");

            zControlParam.Enable       = true;
            zControlParam.MaxStep      = 1;
            zControlParam.Perturbation = 0.1;
            IAgVADCControl vxControlParam = dc.ControlParameters.GetControlByPaths("InitialState", "InitialState.Cartesian.Vx");

            vxControlParam.Enable       = true;
            vxControlParam.MaxStep      = 0.001;
            vxControlParam.Perturbation = 1e-04;
            IAgVADCControl vyControlParam = dc.ControlParameters.GetControlByPaths("InitialState", "InitialState.Cartesian.Vy");

            vyControlParam.Enable       = true;
            vyControlParam.MaxStep      = 0.001;
            vyControlParam.Perturbation = 1e-04;
            IAgVADCControl vzControlParam = dc.ControlParameters.GetControlByPaths("InitialState", "InitialState.Cartesian.Vz");

            vzControlParam.Enable       = true;
            vzControlParam.MaxStep      = 0.001;
            vzControlParam.Perturbation = 1e-04;

            // results
            double[] deviations = uncertainty.GetRandomDeviation();

            IAgVADCResult intrackResult = dc.Results.GetResultByPaths("InitialState", "InTrack");

            intrackResult.Enable       = true;
            intrackResult.DesiredValue = deviations[0];
            intrackResult.Tolerance    = 0.01;
            IAgVADCResult radialResult = dc.Results.GetResultByPaths("InitialState", "Radial");

            radialResult.Enable       = true;
            radialResult.DesiredValue = deviations[1];
            radialResult.Tolerance    = 0.01;
            IAgVADCResult crosstrackResult = dc.Results.GetResultByPaths("InitialState", "CrossTrack");

            crosstrackResult.Enable       = true;
            crosstrackResult.DesiredValue = deviations[2];
            crosstrackResult.Tolerance    = 0.01;
            IAgVADCResult intrackRateResult = dc.Results.GetResultByPaths("InitialState", "InTrackRate");

            intrackRateResult.Enable       = true;
            intrackRateResult.DesiredValue = deviations[3] / 1000;
            intrackRateResult.Tolerance    = 0.001;
            IAgVADCResult radialRateResult = dc.Results.GetResultByPaths("InitialState", "RadialRate");

            radialRateResult.Enable       = true;
            radialRateResult.DesiredValue = deviations[4] / 1000;
            radialRateResult.Tolerance    = 0.001;
            IAgVADCResult crosstrackRateResult = dc.Results.GetResultByPaths("InitialState", "CrossTrackRate");

            crosstrackRateResult.Enable       = true;
            crosstrackRateResult.DesiredValue = deviations[5] / 1000;
            crosstrackRateResult.Tolerance    = 0.001;

            /// Propagator ///
            IAgVAMCSPropagate propagate = driver.MainSequence.Insert(AgEVASegmentType.eVASegmentTypePropagate, "ToGround", "-") as IAgVAMCSPropagate;

            ((IAgVAMCSSegment)propagate).Properties.Color = Color.Red;
            //propagate.PropagatorName = "CustomProp";
            propagate.PropagatorName = propName;

            // add an Epoch stopping condition
            IAgVAStoppingConditionCollection propStoppingConditions = propagate.StoppingConditions as IAgVAStoppingConditionCollection;
            IAgVAStoppingConditionElement    epochElement           = propStoppingConditions.Add("Epoch");
            IAgVAStoppingCondition           epoch = (IAgVAStoppingCondition)epochElement.Properties;

            epoch.Trip = ((IAgScenario)root.CurrentScenario).StopTime;
            // add an Altitude stopping condition
            IAgVAStoppingConditionElement altitudeElement = propStoppingConditions.Add("Altitude");
            IAgVAStoppingCondition        altitude        = (IAgVAStoppingCondition)altitudeElement.Properties;

            altitude.Trip = 0;
            // remove the original stopping condition
            propagate.StoppingConditions.Remove("Duration");

            // run the MCS
            driver.RunMCS();
            driver.ClearDWCGraphics();


            // get the stop time
            IAgDataPrvInterval dp          = ((IAgStkObject)sat).DataProviders.GetDataPrvIntervalFromPath("Astrogator MCS Ephemeris Segments") as IAgDataPrvInterval;
            IAgDrResult        result      = dp.Exec(((IAgScenario)root.CurrentScenario).StartTime, ((IAgScenario)root.CurrentScenario).StopTime);
            string             satStopTime = result.DataSets[3].GetValues().GetValue(1).ToString();

            if (satStopTime.Equals((Convert.ToString(((IAgScenario)root.CurrentScenario).StopTime))))
            {
                // the satellite does not decay (it is propagated until the scenario stop time)
                propResults.IsDecayed = false;
            }
            else
            {
                propResults.IsDecayed   = true;
                propResults.ImpactEpoch = satStopTime;
                // remove the millisecond part
                satStopTime = satStopTime.Split('.')[0];

                //ask for LLA data at stop time
                IAgDataPrvTimeVar dpInfo  = ((IAgStkObject)sat).DataProviders.GetDataPrvInfoFromPath("LLA State//Fixed") as IAgDataPrvTimeVar;
                IAgDrResult       resInfo = dpInfo.ExecSingle(satStopTime);
                string            lat     = resInfo.DataSets[1].GetValues().GetValue(0).ToString();
                string            lon     = resInfo.DataSets[2].GetValues().GetValue(0).ToString();
                string            alt     = resInfo.DataSets[3].GetValues().GetValue(0).ToString();
                propResults.ImpactLat = lat;
                propResults.ImpactLon = lon;
                propResults.ImpactAlt = alt;

                // create a target object
                IAgTarget target = root.CurrentScenario.Children.New(AgESTKObjectType.eTarget, "Target" + (runId).ToString().PadLeft(3, '0')) as IAgTarget;
                target.Graphics.Color        = Color.Red;
                target.Graphics.LabelVisible = false;
                IAgPosition pos = target.Position;
                pos.AssignGeodetic(lat, lon, 0);

                // create and display the time event
                IAgCrdnProvider   provider   = root.CurrentScenario.Children["Target" + (runId).ToString().PadLeft(3, '0')].Vgt;
                IAgCrdnEventEpoch eventEpoch = provider.Events.Factory.CreateEventEpoch(runId.ToString().PadLeft(3, '0') + "_Impact", "Impact Epoch") as IAgCrdnEventEpoch;
                eventEpoch.Epoch = satStopTime;
                try { root.ExecuteCommand("Timeline * TimeComponent Add ContentView \"Scenario Availability\" \"Target/Target" + (runId).ToString().PadLeft(3, '0') + " " + runId.ToString().PadLeft(3, '0') + "_Impact Time Instant\""); }
                catch (Exception) { }
                root.ExecuteCommand("Timeline * Refresh");

                // create a unique ephemeris file for each Astrogator run
                DateTime now = DateTime.Now;
                string   satEphemerisPath = Directory.GetCurrentDirectory() + "\\Ephemeris\\Reentry_run_" + (runId).ToString().PadLeft(3, '0') + ".e";
                root.ExecuteCommand("ExportDataFile */Satellite/" + tle.GetSatNumber() + "Astrogator Ephemeris \"" + satEphemerisPath + "\" Type STK CoordSys ICRF CentralBody Earth InterpBoundaries Include");
                propResults.EphemerisFilePath = satEphemerisPath;
                // unload Astrogator satellite
                root.CurrentScenario.Children[tle.GetSatNumber() + "Astrogator"].Unload();

                if (runId == nRuns)
                {
                    // remove the TLE sat
                    // root.CurrentScenario.Children[tle.GetSatNumber()].Unload();
                }
            }

            try
            {
                AGI.Ui.Core.IAgUiWindowsCollection windows = app.Windows;
                foreach (dynamic window in app.Windows)
                {
                    string windowCaption = (string)window.Caption;
                    if (windowCaption.Contains("Setup"))
                    {
                        window.Close();
                    }
                }
            }
            catch (Exception ex)
            {
            }

            return(propResults);
        }