public void AirspeedTest() { var reader = new TrajectoryFileReader(CoordinateUnit.metric); var obj = reader.createTrajectoryFromFile(Globals.testdataDirectory + "test_track.dat"); Assert.AreEqual(102.8, obj.Airspeed(2), 0.001); }
public void t1_TemporalGrid() { var reader = new TrajectoryFileReader(CoordinateUnit.metric); var trajectory = reader.createTrajectoryFromFile(Globals.testdataDirectory + "test_track.dat"); Aircraft aircraft = new Aircraft("GP7270", "wing"); noiseModel = new IntegratedNoiseModel(trajectory, aircraft); noiseModel.StartCalculation(INMCompleted); while (!completed) { } TemporalGrid temporalGrid = noiseModel.TemporalGrid; int numberOfGrids = temporalGrid.GetNumberOfGrids(); Assert.AreNotEqual(0, numberOfGrids); Grid temp = new Grid(new double[1][] { new double[] { 0 } }, null); temporalGrid.AddGrid(temp); Assert.IsNotNull(temporalGrid.GetGrid(0)); Assert.AreEqual(numberOfGrids + 1, temporalGrid.GetNumberOfGrids()); Assert.AreEqual(temp, temporalGrid.GetGrid(numberOfGrids)); completed = false; }
public void BankAngleInfinityTest() { var reader = new TrajectoryFileReader(CoordinateUnit.metric); var obj = reader.createTrajectoryFromFile(Globals.testdataDirectory + "test_track.dat"); Assert.AreEqual(39.286, obj.BankAngle(10), 0.001); }
public void HeadingTest() { var reader = new TrajectoryFileReader(CoordinateUnit.metric); var obj = reader.createTrajectoryFromFile(Globals.testdataDirectory + "test_track.dat"); Assert.AreEqual(45.673, obj.Heading(4.2), 0.001); }
public void Trajectory() { TrajectoryFileReader reader = new TrajectoryFileReader(CoordinateUnit.metric); var obj = reader.createTrajectoryFromFile(Globals.testdataDirectory + "test_track.dat"); Assert.IsNotNull(obj); }
public void BankAngleLessTest() { var reader = new TrajectoryFileReader(CoordinateUnit.metric); var obj = reader.createTrajectoryFromFile(Globals.testdataDirectory + "test_track.dat"); Assert.AreEqual(0, obj.BankAngle(-20)); }
public void AnnoyanceKMLAnimatorConstructorTest() { var reader = new TrajectoryFileReader(CoordinateUnit.metric); var trajectory = reader.createTrajectoryFromFile(Globals.testdataDirectory + "test_track.dat"); var aircraft = new Aircraft("GP7270", "wing"); var noiseModel = new IntegratedNoiseModel(trajectory, aircraft); noiseModel.StartCalculation(INMCompleted); while (!completed) { } var population = new List <double[]> { new double[3] { 100, 200, 2.5 }, new double[3] { 110, 210, 3 } }; var animator = new AnnoyanceKMLAnimator(noiseModel.TemporalGrid, population); Assert.IsNotNull(animator); completed = false; }
public void ContourKMLAnimatorStepTest() { var reader = new TrajectoryFileReader(CoordinateUnit.metric); var trajectory = reader.createTrajectoryFromFile(Globals.testdataDirectory + "test_track.dat"); var aircraft = new Aircraft("GP7270", "wing"); var noiseModel = new IntegratedNoiseModel(trajectory, aircraft); noiseModel.StartCalculation(INMCompleted); while (!completed) { } var labeledContours = new List <int> { 65, 75, 80 }; var animator = new ContourKMLAnimator(noiseModel.TemporalGrid, trajectory, labeledContours); try { var xmlDoc = new XmlDocument(); xmlDoc.LoadXml("<root>" + animator.KMLAnimationStep(0) + "</root>"); } catch (XmlException ex) { Assert.Fail(ex.Message); } completed = false; }
public void TiltTest() { var reader = new TrajectoryFileReader(CoordinateUnit.metric); var obj = reader.createTrajectoryFromFile(Globals.testdataDirectory + "test_track.dat"); Assert.AreEqual(22.455, obj.Tilt(3.5), 0.001); }
public void KMLAnimatorFullTest() { if (File.Exists(Globals.currentDirectory + "test.kml")) { File.Delete(Globals.currentDirectory + "test.kml"); } var reader = new TrajectoryFileReader(CoordinateUnit.metric); var trajectory = reader.createTrajectoryFromFile(Globals.testdataDirectory + "test_track.dat"); var aircraft = new Aircraft("GP7270", "wing"); var noiseModel = new IntegratedNoiseModel(trajectory, aircraft); noiseModel.StartCalculation(calculationCompleted); while (!INMCompleted) { } TemporalGrid temporalGrid = noiseModel.TemporalGrid; var population = new List <double[]> { new double[3] { 104064, 475499, 2.5 }, new double[3] { 104262, 476470, 3 } }; var camera = new FollowKMLAnimatorCamera(aircraft, trajectory); var sections = new List <KMLAnimatorSectionInterface>() { new AircraftKMLAnimator(aircraft, trajectory), new AirplotKMLAnimator(trajectory), new GroundplotKMLAnimator(trajectory), new ContourKMLAnimator(temporalGrid, trajectory, new List <int>() { 65, 70, 75 }), new AnnoyanceKMLAnimator(temporalGrid, population) }; var animator = new KMLAnimator(sections, camera); animator.AnimationToFile(trajectory.Duration, Globals.currentDirectory + "test.kml"); String output = File.ReadAllText(Globals.currentDirectory + "test.kml"); try { var xmlDoc = new XmlDocument(); xmlDoc.LoadXml(output); } catch (XmlException ex) { Assert.Fail(ex.Message); } INMCompleted = false; }
public void TrajectoryLongLat() { var reader = new TrajectoryFileReader(CoordinateUnit.metric); var obj = reader.createTrajectoryFromFile(Globals.testdataDirectory + "test_track.dat"); Assert.AreEqual(52.289, obj.Latitude(0.1), 0.001); Assert.AreEqual(4.737, obj.Longitude(0.1), 0.001); }
public void AirplotKMLAnimatorConstructorTest() { var reader = new TrajectoryFileReader(CoordinateUnit.metric); var trajectory = reader.createTrajectoryFromFile(Globals.testdataDirectory + "test_track.dat"); var animator = new AirplotKMLAnimator(trajectory); Assert.IsNotNull(animator); }
public void FollowKMLAnimatorCameraConstructorTest() { var reader = new TrajectoryFileReader(CoordinateUnit.metric); var trajectory = reader.createTrajectoryFromFile(Globals.testdataDirectory + "test_track.dat"); var aircraft = new Aircraft("GP7270", "wing"); var camera = new FollowKMLAnimatorCamera(aircraft, trajectory); Assert.IsNotNull(camera); }
public void TrajectoryXYZ() { var reader = new TrajectoryFileReader(CoordinateUnit.metric); var obj = reader.createTrajectoryFromFile(Globals.testdataDirectory + "test_track.dat"); Assert.AreEqual(110640.78, obj.X(0.1), 0.001); Assert.AreEqual(478092.374, obj.Y(0.1), 0.001); Assert.AreEqual(14.3085, obj.Z(0.1), 0.001); Assert.AreEqual(52.289, obj.Latitude(0.1), 0.001); Assert.AreEqual(4.737, obj.Longitude(0.1), 0.001); }
public void TrajectoryPoint() { var reader = new TrajectoryFileReader(CoordinateUnit.metric); var obj = reader.createTrajectoryFromFile(Globals.testdataDirectory + "test_track.dat"); Point3D point = obj.Point3D(0.05); Assert.IsNotNull(point); Assert.AreEqual(110649.39, point.X, 0.001); Assert.AreEqual(478097.687, point.Y, 0.001); Assert.AreEqual(12.488, point.Z, 0.001); }
public void TrajectoryGeoPoint() { var reader = new TrajectoryFileReader(CoordinateUnit.metric); var obj = reader.createTrajectoryFromFile(Globals.testdataDirectory + "test_track.dat"); GeoPoint3D geopoint = obj.GeoPoint(2.5); Assert.IsNotNull(geopoint); Assert.AreEqual(52.287, geopoint.Latitude, 0.001); Assert.AreEqual(4.731, geopoint.Longitude, 0.001); Assert.AreEqual(101.974, geopoint.Z, 0.001); }
public void AirplotKMLAnimatorFinishTest() { var reader = new TrajectoryFileReader(CoordinateUnit.metric); var trajectory = reader.createTrajectoryFromFile(Globals.testdataDirectory + "test_track.dat"); var animator = new AirplotKMLAnimator(trajectory); try { var xmlDoc = new XmlDocument(); xmlDoc.LoadXml("<root>" + animator.KMLFinish() + "</root>"); } catch (XmlException ex) { Assert.Fail(ex.Message); } }
protected void OneTrajectoryINM() { var aircraft = new Aircraft("GP7270", "wing"); var trajectoryGenerator = new TrajectoryGenerator(aircraft, referencePoint); if (_view.TrajectoryFile.Contains(".")) { var reader = new TrajectoryFileReader(CoordinateUnit.metric, trajectoryGenerator); trajectory = reader.CreateTrajectoryFromFile(_view.TrajectoryFile); } trajectory.Aircraft = aircraft; noiseModel = new IntegratedNoiseModel(trajectory, aircraft); bool integrateToCurrentPosition = true; int metric = 0; switch (_view.NoiseMetric) { case 0: metric = 1; integrateToCurrentPosition = false; break; case 1: metric = 1; break; case 2: metric = 0; break; case 3: metric = 2; break; case 4: metric = 3; break; } noiseModel.IntegrateToCurrentPosition = integrateToCurrentPosition; noiseModel.NoiseMetric = metric; noiseModel.StartCalculation(ProgressChanged); temporalGrid = noiseModel.TemporalGrid; _view.Invoke(delegate { _view.NoiseCalculationCompleted(); }); }
public void AicraftKMLAnimatorFinishTest() { var reader = new TrajectoryFileReader(CoordinateUnit.metric); var trajectory = reader.createTrajectoryFromFile(Globals.testdataDirectory + "test_track.dat"); var aircraft = new Aircraft("GP7270", "wing"); var camera = new FollowKMLAnimatorCamera(aircraft, trajectory); try { var xmlDoc = new XmlDocument(); xmlDoc.LoadXml(kmlRoot + camera.KMLFinish() + kmlRootClose); } catch (XmlException ex) { Assert.Fail(ex.Message); } }
public void AircraftKMLAnimatorStepTest() { var reader = new TrajectoryFileReader(CoordinateUnit.metric); var trajectory = reader.createTrajectoryFromFile(Globals.testdataDirectory + "test_track.dat"); var aircraft = new Aircraft("GP7270", "wing"); var animator = new AircraftKMLAnimator(aircraft, trajectory); try { var xmlDoc = new XmlDocument(); xmlDoc.LoadXml("<root>" + animator.KMLAnimationStep(0) + "</root>"); } catch (XmlException ex) { Assert.Fail(ex.Message); } }
public void GroundplotKMLAnimatorStepTest() { var reader = new TrajectoryFileReader(CoordinateUnit.metric); var trajectory = reader.createTrajectoryFromFile(Globals.testdataDirectory + "test_track.dat"); var animator = new GroundplotKMLAnimator(trajectory); try { var xmlDoc = new XmlDocument(); xmlDoc.LoadXml(kmlRoot + animator.KMLAnimationStep(0) + kmlRootClose); } catch (XmlException ex) { Assert.Fail(ex.Message); } }
public void t5_INMFullTest() { var reader = new TrajectoryFileReader(CoordinateUnit.metric); var trajectory = reader.createTrajectoryFromFile(Globals.testdataDirectory + "test_track.dat"); var aircraft = new Aircraft("GP7270", "wing"); var noiseModel = new IntegratedNoiseModel(trajectory, aircraft); noiseModel.StartCalculation(INMCompleted); while (!completed) { } TemporalGrid temporalGrid = noiseModel.TemporalGrid; Assert.AreEqual(2, temporalGrid.GetNumberOfGrids()); completed = false; }
public void t3_INMPositionFileCanBeCreatedTest() { var reader = new TrajectoryFileReader(CoordinateUnit.metric); var trajectory = reader.createTrajectoryFromFile(Globals.testdataDirectory + "test_track.dat"); var aircraft = new Aircraft("GP7270", "wing"); IntegratedNoiseModel noiseModel = new IntegratedNoiseModel(trajectory, aircraft); noiseModel.StartCalculation(INMCompleted); while (!completed) { } string positionFile = Globals.currentDirectory + "current_position.dat"; Assert.True(File.Exists(positionFile), positionFile + " does not exist"); completed = false; }
public void GridConverterSELData() { var reader = new TrajectoryFileReader(CoordinateUnit.metric); var trajectory = reader.createTrajectoryFromFile(Globals.testdataDirectory + "test_track.dat"); Aircraft aircraft = new Aircraft("GP7270", "wing"); var noiseModel_SEL = new IntegratedNoiseModel(trajectory, aircraft); noiseModel_SEL.StartCalculation(testSEL); while (!testRunned_SEL) { } var converter_SEL = new GridConverter(noiseModel_SEL.TemporalGrid, GridTransformation.SEL); TemporalGrid res = converter_SEL.transform(); Assert.AreEqual(30.67, Math.Round(res.GetGrid(1).Data[65][60], 2), 0.001); testRunned_SEL = false; }
public void GridConverteMAXInterval() { var reader = new TrajectoryFileReader(CoordinateUnit.metric); var trajectory = reader.createTrajectoryFromFile(Globals.testdataDirectory + "test_track.dat"); Aircraft aircraft = new Aircraft("GP7270", "wing"); var noiseModel_MAX = new IntegratedNoiseModel(trajectory, aircraft); noiseModel_MAX.StartCalculation(testMAX); while (!testRunned_MAX) { } var converter_MAX = new GridConverter(noiseModel_MAX.TemporalGrid, GridTransformation.MAX); TemporalGrid res = converter_MAX.transform(); Assert.AreEqual(1, res.Interval); testRunned_MAX = false; }
public void GridConverterSELNumberOfGrids() { var reader = new TrajectoryFileReader(CoordinateUnit.metric); var trajectory = reader.createTrajectoryFromFile(Globals.testdataDirectory + "test_track.dat"); Aircraft aircraft = new Aircraft("GP7270", "wing"); var noiseModel_SEL = new IntegratedNoiseModel(trajectory, aircraft); noiseModel_SEL.StartCalculation(testSEL); while (!testRunned_SEL) { } var converter_SEL = new GridConverter(noiseModel_SEL.TemporalGrid, GridTransformation.SEL); TemporalGrid res = converter_SEL.transform(); Assert.IsNotNull(converter_SEL); Assert.AreEqual(2, res.GetNumberOfGrids()); testRunned_SEL = false; }
public void AicraftKMLAnimatorStepTest() { var reader = new TrajectoryFileReader(CoordinateUnit.metric); var trajectory = reader.createTrajectoryFromFile(Globals.testdataDirectory + "test_track.dat"); var aircraft = new Aircraft("GP7270", "wing"); var noiseModel = new IntegratedNoiseModel(trajectory, aircraft); noiseModel.StartCalculation(INMCompleted); while (!completed) { } var population = new List <double[]> { new double[3] { 110658, 478103, 2.5 }, new double[3] { 110700, 478050, 3 } }; var animator = new AnnoyanceKMLAnimator(noiseModel.TemporalGrid, population); try { var xmlDoc = new XmlDocument(); xmlDoc.LoadXml("<root>" + animator.KMLAnimationStep(0) + "</root>"); } catch (XmlException ex) { Assert.Fail(ex.Message); } completed = false; }
public void ContourKMLAnimatorConstructorTest() { var reader = new TrajectoryFileReader(CoordinateUnit.metric); var trajectory = reader.createTrajectoryFromFile(Globals.testdataDirectory + "test_track.dat"); var aircraft = new Aircraft("GP7270", "wing"); var noiseModel = new IntegratedNoiseModel(trajectory, aircraft); noiseModel.StartCalculation(INMCompleted); while (!completed) { } var labeledContours = new List <int> { 65, 75, 80 }; var animator = new ContourKMLAnimator(noiseModel.TemporalGrid, trajectory, labeledContours); Assert.IsNotNull(animator); completed = false; }
private void Test_Load(object sender, EventArgs e) { var aircraft = new Aircraft("GP7270", "wing"); var generator = new TrajectoryGenerator(aircraft, new ReferencePointRD()); var reader = new TrajectoryFileReader(CoordinateUnit.metric, generator); var trajectory = reader.CreateTrajectoryFromFile(Globals.currentDirectory + "track_schiphol.dat"); for (int t = 0; t < trajectory.Duration; t++) { chartGroundPath.Series["Groundpath"].Points.AddXY(trajectory.Longitude(t), trajectory.Latitude(t)); } AutoScaleChart(chartGroundPath); chartGroundPath.ChartAreas[0].AxisY.LabelStyle.Format = "{0.00}"; chartGroundPath.ChartAreas[0].AxisX.LabelStyle.Format = "{0.00}"; chartGroundPath.Series["Groundpath"].ChartType = SeriesChartType.FastLine; for (int t = 0; t < trajectory.Duration; t++) { chartAltitude.Series["Altitude [m]"].Points.AddXY(t, trajectory.Z(t)); } chartAltitude.Series["Altitude [m]"].ChartType = SeriesChartType.FastLine; /* * var reader = new TrajectoryFileReader(CoordinateUnit.metric); * trajectory = reader.createTrajectoryFromFile(Globals.currentDirectory + "track_schiphol.dat"); * * aircraft = new Aircraft("GP7270", "wing"); * noiseModel = new IntegratedNoiseModel(trajectory, aircraft); * noiseModel.StartCalculation(progressChanged); * * var legend = new LegendCreator(); * legend.OutputLegendImage(); * legend.OutputLegendTitle(); * * TemporalGrid temporalGrid = noiseModel.TemporalGrid; * //temporalGrid.LowerLeftCorner = new Point3D(104062, 475470, 0, CoordinateUnit.metric); * //temporalGrid.GridSize = 125; * * var population = new PopulationData(Globals.currentDirectory + "population.dat"); * * var camera = new FollowKMLAnimatorCamera(aircraft, trajectory); * var sections = new List<KMLAnimatorSectionInterface>() { * new LegendKMLAnimator(), * new AircraftKMLAnimator(aircraft, trajectory), * new AirplotKMLAnimator(trajectory), * new GroundplotKMLAnimator(trajectory), * new ContourKMLAnimator(temporalGrid, trajectory, new List<int>() { 65, 70, 75 }), * new AnnoyanceKMLAnimator(temporalGrid, population.getPopulationData()) * }; * var animator = new KMLAnimator(sections, camera); * animator.AnimationToFile(trajectory.Duration, Globals.currentDirectory + "test.kml"); * * GoogleEarthServerForm googleEarthForm = new GoogleEarthServerForm(); * * this.Hide(); * googleEarthForm.Closed += (s, args) => this.Close(); * googleEarthForm.Show(); */ }