private static void DecodeAzimuthAndDistance(ref GeoCordSystemDegMinSecUtilities.LatLongClass NewPosition, double Distance, double Azimuth) { GeoCordSystemDegMinSecUtilities.LatLongClass ResultPosition = new GeoCordSystemDegMinSecUtilities.LatLongClass(); ////////////////////////////////////////////////////////////////////////////////// // // Here loop through the defined radars and determine the source of the data. // Once the source is determined calculate the extact position of the target // by taking the position of the radar and applying the range and bearing. // Display time of reception // Extract the cu // rrent SIC/SAC so the correct radar can be applied // ASTERIX.SIC_SAC_Time SIC_SAC_TIME = (ASTERIX.SIC_SAC_Time)CAT01.I001DataItems[CAT01.ItemIDToIndex("010")].value; foreach (SystemAdaptationDataSet.Radar RDS in SystemAdaptationDataSet.RadarDataSet) { // If the current SIC/SAC code matched the code of one of the defined radars // then go ahead and calculate the Lat/Long position. if (RDS.SIC == SIC_SAC_TIME.SIC.ToString() && RDS.SAC == SIC_SAC_TIME.SAC.ToString()) { ResultPosition = GeoCordSystemDegMinSecUtilities.CalculateNewPosition(RDS.RadarPosition, Distance, Azimuth); } } NewPosition.SetPosition(ResultPosition.GetLatLongDecimal()); }
public Radar(string R_Name, GeoCordSystemDegMinSecUtilities.LatLongClass R_Position, string R_SIC, string R_SAC) { RadarName = R_Name; RadarPosition = new GeoCordSystemDegMinSecUtilities.LatLongClass(R_Position.GetLatLongDecimal().LatitudeDecimal, R_Position.GetLatLongDecimal().LongitudeDecimal); SIC = R_SIC; SAC = R_SAC; }
public OutData GetResult() { // select a reference elllipsoid Ellipsoid reference = Ellipsoid.WGS84; // instantiate the calculator GeodeticCalculator geoCalc = new GeodeticCalculator(); // Used to calculate the time to the min distance GlobalPosition Orig_Track_1_Pos = new GlobalPosition(new GlobalCoordinates(Track_1_Pos.Latitude, Track_1_Pos.Longitude)); int UpdateStep = 60 / Properties.Settings.Default.SEepToolUpdateRate; for (int LookAheadIndex = 1; LookAheadIndex <= ((MaxLookAheadTimeInMinutes * 60) / UpdateStep); LookAheadIndex++) { // Calculate new position X seconds ahead for track 1 double Range = (Track_1_SPD / 60) / UpdateStep; GeoCordSystemDegMinSecUtilities.LatLongClass ResultPosition_1 = GeoCordSystemDegMinSecUtilities.CalculateNewPosition(new GeoCordSystemDegMinSecUtilities.LatLongClass(Track_1_Pos.Latitude.Degrees, Track_1_Pos.Longitude.Degrees), (double)Range, (double)Track_1_TRK); GPoint MarkerPositionLocal = FormMain.gMapControl.FromLatLngToLocal(new PointLatLng(ResultPosition_1.GetLatLongDecimal().LatitudeDecimal, ResultPosition_1.GetLatLongDecimal().LongitudeDecimal)); ReturnData.Track_1_Pos_Min.X = MarkerPositionLocal.X; ReturnData.Track_1_Pos_Min.Y = MarkerPositionLocal.Y; // Calculate new position X seconds ahead for track 2 Range = (Track_2_SPD / 60) / 15; GeoCordSystemDegMinSecUtilities.LatLongClass ResultPosition_2 = GeoCordSystemDegMinSecUtilities.CalculateNewPosition(new GeoCordSystemDegMinSecUtilities.LatLongClass(Track_2_Pos.Latitude.Degrees, Track_2_Pos.Longitude.Degrees), (double)Range, (double)Track_2_TRK); MarkerPositionLocal = FormMain.gMapControl.FromLatLngToLocal(new PointLatLng(ResultPosition_2.GetLatLongDecimal().LatitudeDecimal, ResultPosition_2.GetLatLongDecimal().LongitudeDecimal)); ReturnData.Track_2_Pos_Min.X = MarkerPositionLocal.X; ReturnData.Track_2_Pos_Min.Y = MarkerPositionLocal.Y; double distance1 = geoCalc.CalculateGeodeticMeasurement(reference, Track_1_Pos, Track_2_Pos).PointToPointDistance; double distance2 = geoCalc.CalculateGeodeticMeasurement(reference, new GlobalPosition(new GlobalCoordinates(ResultPosition_1.GetLatLongDecimal().LatitudeDecimal, ResultPosition_1.GetLatLongDecimal().LongitudeDecimal)), new GlobalPosition(new GlobalCoordinates(ResultPosition_2.GetLatLongDecimal().LatitudeDecimal, ResultPosition_2.GetLatLongDecimal().LongitudeDecimal))).PointToPointDistance; // Calculate distance between present and new position if ((distance1 < distance2) && (LookAheadIndex != 1)) { ReturnData.Is_Converging = true; ReturnData.MinDistance = distance2 * 0.00053996; // Convert to nautical miles double DistanceToTravel = geoCalc.CalculateGeodeticMeasurement(reference, Orig_Track_1_Pos, new GlobalPosition(new GlobalCoordinates(ResultPosition_1.GetLatLongDecimal().LatitudeDecimal, ResultPosition_1.GetLatLongDecimal().LongitudeDecimal))).PointToPointDistance; DistanceToTravel = DistanceToTravel * 0.00053996; // Convert to nautical miles ReturnData.SecondsToMinimum = (int)((DistanceToTravel / Track_1_SPD) * 60.0 * 60.0); // We have reached the minimum distance break; } else if ((distance1 < distance2) && (LookAheadIndex == 1)) { ReturnData.Is_Converging = false; break; } Track_1_Pos = new GlobalPosition(new GlobalCoordinates(ResultPosition_1.GetLatLongDecimal().LatitudeDecimal, ResultPosition_1.GetLatLongDecimal().LongitudeDecimal)); Track_2_Pos = new GlobalPosition(new GlobalCoordinates(ResultPosition_2.GetLatLongDecimal().LatitudeDecimal, ResultPosition_2.GetLatLongDecimal().LongitudeDecimal)); } return(ReturnData); }
public override void OnRender(Graphics g) { Pen MyPen = new Pen(new SolidBrush(LabelAttributes.TargetColor), LabelAttributes.TargetSize); MyPen.DashStyle = LabelAttributes.TargetStyle; // Draw AC Symbol g.DrawRectangle(MyPen, LocalPosition.X - 5, LocalPosition.Y - 5, 10, 10); AC_SYMB_START_X = LocalPosition.X - 5; AC_SYMB_START_Y = LocalPosition.Y - 5; ///////////////////////////////////////////////////////////////////////////////////////////////////////////// // Here handle drawing of Range/Bearing & SEP tool if (TargetToMonitor != -1) { Point StartPosition = new Point(LocalPosition.X, LocalPosition.Y); Point EndPosition = DynamicDisplayBuilder.GetTargetPositionByIndex(TargetToMonitor); g.DrawLine(new Pen(Brushes.Yellow, 1), StartPosition, EndPosition); // select a reference elllipsoid Ellipsoid reference = Ellipsoid.WGS84; // instantiate the calculator GeodeticCalculator geoCalc = new GeodeticCalculator(); GlobalPosition Start = new GlobalPosition(new GlobalCoordinates(this.Position.Lat, this.Position.Lng)); PointLatLng End_LatLng = FormMain.FromLocalToLatLng(EndPosition.X, EndPosition.Y); GlobalPosition End = new GlobalPosition(new GlobalCoordinates(End_LatLng.Lat, End_LatLng.Lng)); GeodeticMeasurement GM = geoCalc.CalculateGeodeticMeasurement(reference, End, Start); //////////////////////////////////////////////////////////////////////////////////////////// // Handle SEP Tool double TRK1_SPD = 0.0, TRK2_SPD = 0.0; double TRK1_AZ = 0.0, TRK2_AZ = 0.0; bool Sep_Data_Is_Valid = true; if (!double.TryParse(CALC_GSPD_STRING, out TRK1_SPD)) { if (!double.TryParse(DAP_GSPD, out TRK1_SPD)) { Sep_Data_Is_Valid = false; } } if (!double.TryParse(DynamicDisplayBuilder.GetTarget_CALC_GSPD_ByIndex(TargetToMonitor), out TRK2_SPD)) { if (!double.TryParse(DynamicDisplayBuilder.GetTarget_DAP_GSPD_ByIndex(TargetToMonitor), out TRK2_SPD)) { Sep_Data_Is_Valid = false; } } if (!double.TryParse(CALC_HDG_STRING, out TRK1_AZ)) { if (!double.TryParse(TRK, out TRK1_AZ)) { if (!double.TryParse(DAP_HDG, out TRK1_AZ)) { Sep_Data_Is_Valid = false; } } } if (!double.TryParse(DynamicDisplayBuilder.GetTarget_CALC_HDG_ByIndex(TargetToMonitor), out TRK2_AZ)) { if (!double.TryParse(DynamicDisplayBuilder.GetTargetTRKByIndex(TargetToMonitor), out TRK2_AZ)) { if (!double.TryParse(DynamicDisplayBuilder.GetTargetM_HDGByIndex(TargetToMonitor), out TRK2_AZ)) { Sep_Data_Is_Valid = false; } } } //////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// // If all the necessary data is avilable // then pass it on to the SEP tool calculator // and then draw the result string SepToolActive = "N/A"; if (Sep_Data_Is_Valid) { SEP_Tool_Calculator SepTool = new SEP_Tool_Calculator(Start, End, TRK1_SPD, TRK2_SPD, TRK1_AZ, TRK2_AZ, 20); SEP_Tool_Calculator.OutData Sep_Tool_Data = SepTool.GetResult(); if (Sep_Tool_Data.Is_Converging) { g.DrawRectangle(new Pen(Brushes.Yellow, LabelAttributes.TargetSize), Sep_Tool_Data.Track_1_Pos_Min.X - 5, Sep_Tool_Data.Track_1_Pos_Min.Y - 5, 10, 10); g.DrawRectangle(new Pen(Brushes.Yellow, LabelAttributes.TargetSize), Sep_Tool_Data.Track_2_Pos_Min.X - 5, Sep_Tool_Data.Track_2_Pos_Min.Y - 5, 10, 10); g.DrawLine(new Pen(Brushes.Yellow, LabelAttributes.TargetSize), new Point(Sep_Tool_Data.Track_1_Pos_Min.X, Sep_Tool_Data.Track_1_Pos_Min.Y), new Point(StartPosition.X, StartPosition.Y)); g.DrawLine(new Pen(Brushes.Yellow, LabelAttributes.TargetSize), new Point(Sep_Tool_Data.Track_2_Pos_Min.X, Sep_Tool_Data.Track_2_Pos_Min.Y), new Point(EndPosition.X, EndPosition.Y)); TimeSpan T = TimeSpan.FromSeconds(Sep_Tool_Data.SecondsToMinimum); SepToolActive = "min d:" + Math.Round(Sep_Tool_Data.MinDistance, 1).ToString() + "/" + T.Minutes.ToString() + ":" + T.Seconds.ToString(); } } // Now compute position half way between two points. double distance = GM.PointToPointDistance / 2.0; if (distance > 0.0) { GlobalCoordinates GC = geoCalc.CalculateEndingGlobalCoordinates(reference, new GlobalCoordinates(End_LatLng.Lat, End_LatLng.Lng), GM.Azimuth, distance); GPoint GP = FormMain.FromLatLngToLocal(new PointLatLng(GC.Latitude.Degrees, GC.Longitude.Degrees)); double Distane_NM = 0.00053996 * GM.PointToPointDistance; g.DrawString(Math.Round(GM.Azimuth.Degrees).ToString() + "°/" + Math.Round(Distane_NM, 1).ToString() + "nm", new Font(FontFamily.GenericSansSerif, 9), Brushes.Yellow, new PointF(GP.X, GP.Y)); if (Sep_Data_Is_Valid && SepToolActive != "N/A") { g.DrawString(SepToolActive, new Font(FontFamily.GenericSansSerif, 9), Brushes.Yellow, new PointF(GP.X, GP.Y + 15)); } } } // Here handle history points // First draw all previous history points int Number_of_Points_Drawn = 0; for (int Index = HistoryPoints.Count - 2; Index >= 0; Index--) { if (Number_of_Points_Drawn < Properties.Settings.Default.HistoryPoints) { HistoryPointsType I = HistoryPoints.ElementAt(Index); GPoint MarkerPositionLocal = FormMain.gMapControl.FromLatLngToLocal(new PointLatLng(I.LatLong.Lat, I.LatLong.Lng)); g.DrawEllipse(MyPen, MarkerPositionLocal.X, MarkerPositionLocal.Y, 3, 3); Number_of_Points_Drawn++; } } ////////////////////////////////////////////////////////////////////////////////////////////////////////////////// // Here draw speed vector // // Find out what data should be used for speed vector? IAS, TAS, GSPD, MACH? if ((DataItemValidator(CALC_HDG_STRING) || DataItemValidator(DAP_HDG) || DataItemValidator(TRK)) && (DataItemValidator(DAP_GSPD) || DataItemValidator(CALC_GSPD_STRING))) { double Azimuth = 0.0; double Range = 0.0; if (DataItemValidator(CALC_GSPD_STRING)) { Range = double.Parse(CALC_GSPD_STRING); } else { Range = double.Parse(DAP_GSPD); } if (DataItemValidator(CALC_HDG_STRING)) { Azimuth = double.Parse(CALC_HDG_STRING); } else if (DataItemValidator(TRK)) { Azimuth = double.Parse(TRK); } else { Azimuth = double.Parse(DAP_HDG); } Range = (Range / 60) * (double)Properties.Settings.Default.SpeedVector; GeoCordSystemDegMinSecUtilities.LatLongClass ResultPosition = GeoCordSystemDegMinSecUtilities.CalculateNewPosition(new GeoCordSystemDegMinSecUtilities.LatLongClass(Position.Lat, Position.Lng), (double)Range, (double)Azimuth); GPoint MarkerPositionLocal = FormMain.gMapControl.FromLatLngToLocal(new PointLatLng(ResultPosition.GetLatLongDecimal().LatitudeDecimal, ResultPosition.GetLatLongDecimal().LongitudeDecimal)); g.DrawLine(MyPen, new Point(LocalPosition.X, LocalPosition.Y), new Point(MarkerPositionLocal.X, MarkerPositionLocal.Y)); } else { int T = 9; int r = T; } ////////////////////////////////////////////////////////////////////////////////////////////////////////////////// MyPen = new Pen(new SolidBrush(LabelAttributes.LineColor), LabelAttributes.LineWidth); MyPen.DashStyle = LabelAttributes.LineStyle; // Draw leader line g.DrawLine(MyPen, new Point(LocalPosition.X, LocalPosition.Y), new Point(LocalPosition.X - LabelOffset.X, LocalPosition.Y - LabelOffset.Y)); // Draw label box Point LabelStartPosition = GetLabelStartingPoint(); // Recalculate Label Width each cycle to adjust for the possible changes in the number of lines // and changes in the text size LabelHeight = 0; // Draw ModeA and coast indicator g.DrawString(ModeA_CI_STRING, ModeA_CI_FONT, ModeA_CI_BRUSH, LabelStartPosition.X + ModeA_CI_OFFSET.X, LabelStartPosition.Y + SpacingIndex); LabelHeight = LabelHeight + (int)ModeA_CI_FONT.Size + SpacingIndex * 2; if (CALLSIGN_STRING != "--------") { // Draw CALLSIGN g.DrawString(CALLSIGN_STRING, CALLSIGN_FONT, CALLSIGN_BRUSH, LabelStartPosition.X + CALLSIGN_OFFSET.X, LabelStartPosition.Y + LabelHeight); LabelHeight = LabelHeight + (int)CALLSIGN_FONT.Size + SpacingIndex * 2; } // Draw ModeC g.DrawString(ModeC_STRING, ModeC_FONT, ModeC_BRUSH, LabelStartPosition.X + ModeC_OFFSET.X, LabelStartPosition.Y + LabelHeight); // Draw CFL on the same line if (ModeC_STRING == null) { ModeC_STRING = "---"; } CFL_OFFSET.X = ModeC_STRING.Length * (int)ModeC_FONT.Size; CFL_OFFSET.Y = LabelStartPosition.Y + LabelHeight; g.DrawString(CFL_STRING, CFL_FONT, CFL_BRUSH, LabelStartPosition.X + CFL_OFFSET.X, CFL_OFFSET.Y); CFL_START_X = LabelStartPosition.X + CFL_OFFSET.X; CFL_START_Y = CFL_OFFSET.Y; // Draw GSPD on the same line GSPD_OFFSET.X = (ModeC_STRING.Length * (int)ModeC_FONT.Size) + (CFL_STRING.Length * (int)CFL_FONT.Size); GSPD_OFFSET.Y = LabelStartPosition.Y + LabelHeight; if (CALC_GSPD_STRING != " ---") { g.DrawString(CALC_GSPD_STRING, GSPD_FONT, GSPD_BRUSH, LabelStartPosition.X + GSPD_OFFSET.X, GSPD_OFFSET.Y); } else if (DAP_GSPD != "N/A") { g.DrawString(DAP_GSPD, GSPD_FONT, GSPD_BRUSH, LabelStartPosition.X + GSPD_OFFSET.X, GSPD_OFFSET.Y); } else { g.DrawString(" ---", GSPD_FONT, GSPD_BRUSH, LabelStartPosition.X + GSPD_OFFSET.X, GSPD_OFFSET.Y); } GSPD_START_X = LabelStartPosition.X + GSPD_OFFSET.X; GSPD_START_Y = GSPD_OFFSET.Y; LabelHeight = LabelHeight + (int)GSPD_FONT.Size + SpacingIndex * 2; if (ShowLabelBox == true) { ///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// // DRAW Assigned HDG, SPD and ROC ///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////// // HDG g.DrawString(A_HDG_STRING, A_HDG_FONT, A_HDG_BRUSH, LabelStartPosition.X + A_HDG_OFFSET.X, LabelStartPosition.Y + LabelHeight); HDG_START_X = LabelStartPosition.X + A_HDG_OFFSET.X; HDG_START_Y = LabelStartPosition.Y + LabelHeight; // SPD A_SPD_OFFSET.X = A_HDG_STRING.Length * (int)A_HDG_FONT.Size; A_SPD_OFFSET.Y = LabelStartPosition.Y + LabelHeight; g.DrawString(A_SPD_STRING, A_SPD_FONT, A_SPD_BRUSH, LabelStartPosition.X + A_SPD_OFFSET.X, A_SPD_OFFSET.Y); SPD_START_X = LabelStartPosition.X + A_SPD_OFFSET.X; SPD_START_Y = A_SPD_OFFSET.Y; // ROC //A_ROC_OFFSET.X = A_SPD_OFFSET.X + A_SPD_OFFSET.X + A_SPD_STRING.Length * (int)A_SPD_FONT.Size; //A_ROC_OFFSET.Y = LabelStartPosition.Y + LabelHeight; // g.DrawString(A_ROC_STRING, A_ROC_FONT, A_ROC_BRUSH, LabelStartPosition.X + A_ROC_OFFSET.X, A_ROC_OFFSET.Y); LabelHeight = LabelHeight + (int)A_SPD_FONT.Size + SpacingIndex * 2; // Add the final spacing index and draw the box LabelHeight = LabelHeight + SpacingIndex * 2; g.DrawRectangle(MyPen, LabelStartPosition.X, LabelStartPosition.Y, LabelWidth, LabelHeight); } }
private static void DecodeAzimuthAndDistance(ref GeoCordSystemDegMinSecUtilities.LatLongClass NewPosition, out double Distance, out double Azimuth, Bit_Ops BO) { double Distance_Loc = 0.0; double Azimuth_Loc = 0.0; GeoCordSystemDegMinSecUtilities.LatLongClass ResultPosition = new GeoCordSystemDegMinSecUtilities.LatLongClass(); /////////////////////////////////////////////////////////////////////////////////////// // Decode Distance /////////////////////////////////////////////////////////////////////////////////////// if (BO.DWord[Bit_Ops.Bit16] == true) Distance_Loc = RHO_1; if (BO.DWord[Bit_Ops.Bit17] == true) Distance_Loc = Distance_Loc + RHO_2; if (BO.DWord[Bit_Ops.Bit18] == true) Distance_Loc = Distance_Loc + RHO_3; if (BO.DWord[Bit_Ops.Bit19] == true) Distance_Loc = Distance_Loc + RHO_4; if (BO.DWord[Bit_Ops.Bit20] == true) Distance_Loc = Distance_Loc + RHO_5; if (BO.DWord[Bit_Ops.Bit21] == true) Distance_Loc = Distance_Loc + RHO_6; if (BO.DWord[Bit_Ops.Bit22] == true) Distance_Loc = Distance_Loc + RHO_7; if (BO.DWord[Bit_Ops.Bit23] == true) Distance_Loc = Distance_Loc + RHO_8; if (BO.DWord[Bit_Ops.Bit24] == true) Distance_Loc = Distance_Loc + RHO_9; if (BO.DWord[Bit_Ops.Bit25] == true) Distance_Loc = Distance_Loc + RHO_10; if (BO.DWord[Bit_Ops.Bit26] == true) Distance_Loc = Distance_Loc + RHO_11; if (BO.DWord[Bit_Ops.Bit27] == true) Distance_Loc = Distance_Loc + RHO_12; if (BO.DWord[Bit_Ops.Bit28] == true) Distance_Loc = Distance_Loc + RHO_13; if (BO.DWord[Bit_Ops.Bit29] == true) Distance_Loc = Distance_Loc + RHO_14; if (BO.DWord[Bit_Ops.Bit30] == true) Distance_Loc = Distance_Loc + RHO_15; if (BO.DWord[Bit_Ops.Bit31] == true) Distance_Loc = Distance_Loc + RHO_16; /////////////////////////////////////////////////////////////////////////////////////// // Decode Azimuth /////////////////////////////////////////////////////////////////////////////////////// if (BO.DWord[Bit_Ops.Bit0] == true) Azimuth_Loc = THETA_1; if (BO.DWord[Bit_Ops.Bit1] == true) Azimuth_Loc = Azimuth_Loc + THETA_2; if (BO.DWord[Bit_Ops.Bit2] == true) Azimuth_Loc = Azimuth_Loc + THETA_3; if (BO.DWord[Bit_Ops.Bit3] == true) Azimuth_Loc = Azimuth_Loc + THETA_4; if (BO.DWord[Bit_Ops.Bit4] == true) Azimuth_Loc = Azimuth_Loc + THETA_5; if (BO.DWord[Bit_Ops.Bit5] == true) Azimuth_Loc = Azimuth_Loc + THETA_6; if (BO.DWord[Bit_Ops.Bit6] == true) Azimuth_Loc = Azimuth_Loc + THETA_7; if (BO.DWord[Bit_Ops.Bit7] == true) Azimuth_Loc = Azimuth_Loc + THETA_8; if (BO.DWord[Bit_Ops.Bit8] == true) Azimuth_Loc = Azimuth_Loc + THETA_9; if (BO.DWord[Bit_Ops.Bit9] == true) Azimuth_Loc = Azimuth_Loc + THETA_10; if (BO.DWord[Bit_Ops.Bit10] == true) Azimuth_Loc = Azimuth_Loc + THETA_11; if (BO.DWord[Bit_Ops.Bit11] == true) Azimuth_Loc = Azimuth_Loc + THETA_12; if (BO.DWord[Bit_Ops.Bit12] == true) Azimuth_Loc = Azimuth_Loc + THETA_13; if (BO.DWord[Bit_Ops.Bit13] == true) Azimuth_Loc = Azimuth_Loc + THETA_14; if (BO.DWord[Bit_Ops.Bit14] == true) Azimuth_Loc = Azimuth_Loc + THETA_15; if (BO.DWord[Bit_Ops.Bit15] == true) Azimuth_Loc = Azimuth_Loc + THETA_16; Azimuth = Azimuth_Loc; Distance = Distance_Loc; ////////////////////////////////////////////////////////////////////////////////// // // Here loop through the defined radars and determine the source of the data. // Once the source is determined calculate the extact position of the target // by taking the position of the radar and applying the range and bearing. // Display time of reception // // Extract the current SIC/SAC so the correct radar can be applied // ASTERIX.SIC_SAC_Time SIC_SAC_TIME = (ASTERIX.SIC_SAC_Time)CAT48.I048DataItems[CAT48.ItemIDToIndex("010")].value; foreach (SystemAdaptationDataSet.Radar RDS in SystemAdaptationDataSet.RadarDataSet) { // If the current SIC/SAC code matched the code of one of the defined radars // then go ahead and calculate the Lat/Long position. if (RDS.SIC == SIC_SAC_TIME.SIC.ToString() && RDS.SAC == SIC_SAC_TIME.SAC.ToString()) { ResultPosition = GeoCordSystemDegMinSecUtilities.CalculateNewPosition(RDS.RadarPosition, Distance_Loc, Azimuth_Loc); } } NewPosition.SetPosition(ResultPosition.GetLatLongDecimal()); }
private static void DecodeAzimuthAndDistance(ref GeoCordSystemDegMinSecUtilities.LatLongClass NewPosition, out double Distance, out double Azimuth, Bit_Ops BO) { double Distance_Loc = 0.0; double Azimuth_Loc = 0.0; GeoCordSystemDegMinSecUtilities.LatLongClass ResultPosition = new GeoCordSystemDegMinSecUtilities.LatLongClass(); /////////////////////////////////////////////////////////////////////////////////////// // Decode Distance /////////////////////////////////////////////////////////////////////////////////////// if (BO.DWord[Bit_Ops.Bit16] == true) { Distance_Loc = RHO_1; } if (BO.DWord[Bit_Ops.Bit17] == true) { Distance_Loc = Distance_Loc + RHO_2; } if (BO.DWord[Bit_Ops.Bit18] == true) { Distance_Loc = Distance_Loc + RHO_3; } if (BO.DWord[Bit_Ops.Bit19] == true) { Distance_Loc = Distance_Loc + RHO_4; } if (BO.DWord[Bit_Ops.Bit20] == true) { Distance_Loc = Distance_Loc + RHO_5; } if (BO.DWord[Bit_Ops.Bit21] == true) { Distance_Loc = Distance_Loc + RHO_6; } if (BO.DWord[Bit_Ops.Bit22] == true) { Distance_Loc = Distance_Loc + RHO_7; } if (BO.DWord[Bit_Ops.Bit23] == true) { Distance_Loc = Distance_Loc + RHO_8; } if (BO.DWord[Bit_Ops.Bit24] == true) { Distance_Loc = Distance_Loc + RHO_9; } if (BO.DWord[Bit_Ops.Bit25] == true) { Distance_Loc = Distance_Loc + RHO_10; } if (BO.DWord[Bit_Ops.Bit26] == true) { Distance_Loc = Distance_Loc + RHO_11; } if (BO.DWord[Bit_Ops.Bit27] == true) { Distance_Loc = Distance_Loc + RHO_12; } if (BO.DWord[Bit_Ops.Bit28] == true) { Distance_Loc = Distance_Loc + RHO_13; } if (BO.DWord[Bit_Ops.Bit29] == true) { Distance_Loc = Distance_Loc + RHO_14; } if (BO.DWord[Bit_Ops.Bit30] == true) { Distance_Loc = Distance_Loc + RHO_15; } if (BO.DWord[Bit_Ops.Bit31] == true) { Distance_Loc = Distance_Loc + RHO_16; } /////////////////////////////////////////////////////////////////////////////////////// // Decode Azimuth /////////////////////////////////////////////////////////////////////////////////////// if (BO.DWord[Bit_Ops.Bit0] == true) { Azimuth_Loc = THETA_1; } if (BO.DWord[Bit_Ops.Bit1] == true) { Azimuth_Loc = Azimuth_Loc + THETA_2; } if (BO.DWord[Bit_Ops.Bit2] == true) { Azimuth_Loc = Azimuth_Loc + THETA_3; } if (BO.DWord[Bit_Ops.Bit3] == true) { Azimuth_Loc = Azimuth_Loc + THETA_4; } if (BO.DWord[Bit_Ops.Bit4] == true) { Azimuth_Loc = Azimuth_Loc + THETA_5; } if (BO.DWord[Bit_Ops.Bit5] == true) { Azimuth_Loc = Azimuth_Loc + THETA_6; } if (BO.DWord[Bit_Ops.Bit6] == true) { Azimuth_Loc = Azimuth_Loc + THETA_7; } if (BO.DWord[Bit_Ops.Bit7] == true) { Azimuth_Loc = Azimuth_Loc + THETA_8; } if (BO.DWord[Bit_Ops.Bit8] == true) { Azimuth_Loc = Azimuth_Loc + THETA_9; } if (BO.DWord[Bit_Ops.Bit9] == true) { Azimuth_Loc = Azimuth_Loc + THETA_10; } if (BO.DWord[Bit_Ops.Bit10] == true) { Azimuth_Loc = Azimuth_Loc + THETA_11; } if (BO.DWord[Bit_Ops.Bit11] == true) { Azimuth_Loc = Azimuth_Loc + THETA_12; } if (BO.DWord[Bit_Ops.Bit12] == true) { Azimuth_Loc = Azimuth_Loc + THETA_13; } if (BO.DWord[Bit_Ops.Bit13] == true) { Azimuth_Loc = Azimuth_Loc + THETA_14; } if (BO.DWord[Bit_Ops.Bit14] == true) { Azimuth_Loc = Azimuth_Loc + THETA_15; } if (BO.DWord[Bit_Ops.Bit15] == true) { Azimuth_Loc = Azimuth_Loc + THETA_16; } Azimuth = Azimuth_Loc; Distance = Distance_Loc; ////////////////////////////////////////////////////////////////////////////////// // // Here loop through the defined radars and determine the source of the data. // Once the source is determined calculate the extact position of the target // by taking the position of the radar and applying the range and bearing. // Display time of reception // // Extract the current SIC/SAC so the correct radar can be applied // ASTERIX.SIC_SAC_Time SIC_SAC_TIME = (ASTERIX.SIC_SAC_Time)CAT01.I001DataItems[CAT01.ItemIDToIndex("010")].value; foreach (SystemAdaptationDataSet.Radar RDS in SystemAdaptationDataSet.RadarDataSet) { // If the current SIC/SAC code matched the code of one of the defined radars // then go ahead and calculate the Lat/Long position. if (RDS.SIC == SIC_SAC_TIME.SIC.ToString() && RDS.SAC == SIC_SAC_TIME.SAC.ToString()) { ResultPosition = GeoCordSystemDegMinSecUtilities.CalculateNewPosition(RDS.RadarPosition, Distance_Loc, Azimuth_Loc); } } NewPosition.SetPosition(ResultPosition.GetLatLongDecimal()); }
public Waypoint(string W_Name, GeoCordSystemDegMinSecUtilities.LatLongClass W_Position, bool Is_COP_In) { WaypointName = W_Name; WaypointPosition = new GeoCordSystemDegMinSecUtilities.LatLongClass(W_Position.GetLatLongDecimal().LatitudeDecimal, W_Position.GetLatLongDecimal().LongitudeDecimal); Is_COP = Is_COP_In; }