public static List <SemanticLink> GetTestSemanticLinks()
        {
            var ret = new List <SemanticLink>();

            DataTable semanticLinkTable = new DataTable();

            StringBuilder query = new StringBuilder();

            query.AppendLine("SELECT");
            query.AppendLine("  DISTINCT SemanticLinkID,");
            query.AppendLine("  DriverID,");
            query.AppendLine("  semantics,");
            query.AppendLine("  Distance");
            query.AppendLine("FROM default_Outward_SemanticLinks");
            query.AppendLine("WHERE SemanticLinkID = 187 OR SemanticLinkID = 188");
            query.AppendLine("ORDER BY SemanticLinkID");

            semanticLinkTable = DatabaseAccesserEcolog.GetResult(query.ToString());

            for (int i = 0; i < semanticLinkTable.Rows.Count; i++)
            {
                ret.Add(new SemanticLink()
                {
                    SemanticLinkId = (int)semanticLinkTable.Rows[i]["SemanticLinkID"],
                    DriverId       = (int)semanticLinkTable.Rows[i]["DriverID"],
                    Semantics      = (string)semanticLinkTable.Rows[i]["Semantics"],
                    Distance       = (double)semanticLinkTable.Rows[i]["Distance"]
                });
            }

            return(ret);
        }
Ejemplo n.º 2
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 public static int GetEnergyMinTripID(SemanticLink semanticLink, TripDirection direction)
 {
     return(DatabaseAccesserEcolog.GetResult("SELECT * FROM funcNormalizedEnergyMinOfSemanticLink(" + semanticLink.SemanticLinkId + ", '" + direction.Direction + "')")
            .AsEnumerable()
            .Select(x => x.Field <int>("TripID"))
            .ElementAt(0));
 }
        public void SetLinks()
        {
            var ret = new List <Link>();

            DataTable semanticLinkTable = new DataTable();

            StringBuilder query = new StringBuilder();

            query.AppendLine("SELECT links.*");
            query.AppendLine("FROM semantic_links");
            query.AppendLine("  INNER JOIN links ON semantic_links.link_id = links.link_id");
            query.AppendLine("WHERE semantic_link_id = " + this.SemanticLinkId);
            query.AppendLine("ORDER BY link_id, num");

            semanticLinkTable = DatabaseAccesserEcolog.GetResult(query.ToString());

            foreach (DataRow row in semanticLinkTable.Rows)
            {
                Links.Add(new Link()
                {
                    Num       = row.Field <int>("num"),
                    LinkId    = row.Field <string>("link_id"),
                    Latitude  = row.Field <double>("latitude"),
                    Longitude = row.Field <double>("longitude"),
                    NodeId    = row.Field <string>("node_id"),
                    Direction = row.Field <int?>("direction")
                });
            }
        }
Ejemplo n.º 4
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        public static List <Driver> CreateDriversAddAll()
        {
            var ret = new List <Driver>();

            DataTable driverTable = new DataTable();
            string    query       = "SELECT * FROM drivers";

            driverTable = DatabaseAccesserEcolog.GetResult(query);

            ret.Add(new Driver {
                DriverId = 0, Name = "All"
            });
            for (int i = 0; i < driverTable.Rows.Count; i++)
            {
                ret.Add(
                    new Driver()
                {
                    DriverId = (int)driverTable.Rows[i]["driver_id"],
                    Name     = (string)driverTable.Rows[i]["name"]
                }
                    );
            }

            return(ret);
        }
        public static List <SemanticLink> GetAllSemanticLinks()
        {
            var ret = new List <SemanticLink>();

            DataTable semanticLinkTable = new DataTable();

            StringBuilder query = new StringBuilder();

            query.AppendLine("SELECT");
            query.AppendLine("  DISTINCT semantic_link_id,");
            query.AppendLine("  driver_id,");
            query.AppendLine("  semantics");
            query.AppendLine("FROM semantic_links");
            query.AppendLine("ORDER BY semantic_link_id");

            semanticLinkTable = DatabaseAccesserEcolog.GetResult(query.ToString());

            for (int i = 0; i < semanticLinkTable.Rows.Count; i++)
            {
                ret.Add(new SemanticLink()
                {
                    SemanticLinkId = (int)semanticLinkTable.Rows[i]["semantic_link_id"],
                    DriverId       = (int)semanticLinkTable.Rows[i]["driver_id"],
                    Semantics      = (string)semanticLinkTable.Rows[i]["semantics"],
                });
            }

            return(ret);
        }
Ejemplo n.º 6
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        public static List <Sensor> CreateSensorsAddAll()
        {
            var ret = new List <Sensor>();

            DataTable sensorTable = new DataTable();
            string    query       = "SELECT * FROM sensors";

            sensorTable = DatabaseAccesserEcolog.GetResult(query);

            ret.Add(new Sensor {
                SensorId = 0, SensorModel = "All"
            });
            for (int i = 0; i < sensorTable.Rows.Count; i++)
            {
                ret.Add(new Sensor
                {
                    SensorId    = (int)sensorTable.Rows[i]["sensor_id"],
                    SensorModel = (string)sensorTable.Rows[i]["sensor_model"],
                    Brand       = (sensorTable.Rows[i]["brand"] == DBNull.Value ? null : (string)sensorTable.Rows[i]["brand"]),
                    OsVersion   = (sensorTable.Rows[i]["os_version"] == DBNull.Value ? 0 : (float)sensorTable.Rows[i]["os_version"]),
                    Ordinal     = (sensorTable.Rows[i]["ordinal"] == DBNull.Value ? 0 : (int)sensorTable.Rows[i]["ordinal"])
                });
            }

            return(ret);
        }
Ejemplo n.º 7
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        public static ObservableCollection <Trip> SelectTrips()
        {
            DataTable tripsTable = new DataTable();
            string    query      = "SELECT trip_id, driver_id, car_id, sensor_id, start_time, end_time, consumed_energy, trip_direction FROM trips";

            tripsTable = DatabaseAccesserEcolog.GetResult(query);

            var trips = new ObservableCollection <Trip>();

            for (int i = 0; i < tripsTable.Rows.Count; i++)
            {
                trips.Add(new Trip
                {
                    TripId         = (int)tripsTable.Rows[i]["trip_id"],
                    DriverId       = (int)tripsTable.Rows[i]["driver_id"],
                    CarId          = (int)tripsTable.Rows[i]["car_id"],
                    SensorId       = (int)tripsTable.Rows[i]["sensor_id"],
                    StartTime      = (DateTime)tripsTable.Rows[i]["start_time"],
                    EndTime        = (DateTime)tripsTable.Rows[i]["end_time"],
                    ConsumedEnergy = (tripsTable.Rows[i]["consumed_energy"] == DBNull.Value ? 0 : (float)tripsTable.Rows[i]["consumed_energy"]),
                    TripDirection  = (tripsTable.Rows[i]["trip_direction"] == DBNull.Value ? null : (string)tripsTable.Rows[i]["trip_direction"])
                });
            }

            return(trips);
        }
        public static List <GraphEcolog> ExtractGraphEcolog(int tripId)
        {
            var ret = new List <GraphEcolog>();

            DataTable ecologTable = new DataTable();

            StringBuilder query = new StringBuilder();

            query.AppendLine("SELECT");
            query.AppendLine("  jst,");
            query.AppendLine("  latitude,");
            query.AppendLine("  longitude,");
            query.AppendLine("  speed,");
            query.AppendLine("  terrain_altitude,");
            query.AppendLine("  longitudinal_acc,");
            query.AppendLine("  CASE WHEN consumed_electric_energy > 0 THEN energy_by_air_resistance * 3600 ELSE 0 END AS energy_by_air_resistance_plus,");
            query.AppendLine("  CASE WHEN consumed_electric_energy <= 0 THEN energy_by_air_resistance * 3600 ELSE 0 END AS energy_by_air_resistance_minus,");
            query.AppendLine("  CASE WHEN consumed_electric_energy > 0 THEN energy_by_rolling_resistance * 3600 ELSE 0 END AS energy_by_rolling_resistance_plus,");
            query.AppendLine("  CASE WHEN consumed_electric_energy <= 0 THEN energy_by_rolling_resistance * 3600 ELSE 0 END AS energy_by_rolling_resistance_minus,");
            query.AppendLine("  CASE WHEN energy_by_climbing_resistance > 0 THEN energy_by_climbing_resistance * 3600 ELSE 0 END AS energy_by_climbing_resistance,");
            query.AppendLine("  CASE WHEN consumed_electric_energy > 0 THEN energy_by_acc_resistance * 3600 ELSE 0 END AS energy_by_acc_resistance,");
            query.AppendLine("  convert_loss * 3600 AS convert_loss,");
            query.AppendLine("  CASE WHEN consumed_electric_energy <= 0 THEN regene_loss * 3600 ELSE 0 END AS regene_loss,");
            query.AppendLine("  CASE WHEN consumed_electric_energy <= 0 THEN regene_energy * 3600 ELSE 0 END AS regene_energy,");
            query.AppendLine("  lost_energy * 3600 AS lost_energy,");
            query.AppendLine("  consumed_electric_energy * 3600 AS consumed_electric_energy,");
            query.AppendLine("  link_id");
            query.AppendLine("FROM ecolog");
            query.AppendLine("WHERE trip_id = " + tripId);
            query.AppendLine("ORDER BY jst ASC");

            ecologTable = DatabaseAccesserEcolog.GetResult(query.ToString());

            for (int i = 0; i < ecologTable.Rows.Count; i++)
            {
                ret.Add(new GraphEcolog()
                {
                    Jst                            = (DateTime)ecologTable.Rows[i]["jst"],
                    Latitude                       = (double)ecologTable.Rows[i]["latitude"],
                    Longitude                      = (double)ecologTable.Rows[i]["longitude"],
                    Speed                          = (float)ecologTable.Rows[i]["speed"],
                    TerrainAltitude                = (float)ecologTable.Rows[i]["terrain_altitude"],
                    LongitudinalAcc                = (ecologTable.Rows[i]["longitudinal_acc"] == DBNull.Value ? -1 : (float)ecologTable.Rows[i]["longitudinal_acc"]),
                    EnergyByAirResistancePlus      = (float)ecologTable.Rows[i]["energy_by_air_resistance_plus"],
                    EnergyByAirResistanceMinus     = (float)ecologTable.Rows[i]["energy_by_air_resistance_minus"],
                    EnergyByRollingResistancePlus  = (float)ecologTable.Rows[i]["energy_by_rolling_resistance_plus"],
                    EnergyByRollingResistanceMinus = (float)ecologTable.Rows[i]["energy_by_rolling_resistance_minus"],
                    EnergyByClimbingResistance     = (float)ecologTable.Rows[i]["energy_by_climbing_resistance"],
                    EnergyByAccResistance          = (ecologTable.Rows[i]["energy_by_acc_resistance"] == DBNull.Value ? -1 : (float)ecologTable.Rows[i]["energy_by_acc_resistance"]),
                    ConvertLoss                    = (float)ecologTable.Rows[i]["convert_loss"],
                    RegeneLoss                     = (float)ecologTable.Rows[i]["regene_loss"],
                    RegeneEnergy                   = (float)ecologTable.Rows[i]["regene_energy"],
                    LostEnergy                     = (float)ecologTable.Rows[i]["lost_energy"],
                    ConsumedElectricEnergy         = (float)ecologTable.Rows[i]["consumed_electric_energy"],
                    LinkId                         = (ecologTable.Rows[i]["link_id"] == DBNull.Value ? null : (string)ecologTable.Rows[i]["link_id"]),
                });
            }

            return(ret);
        }
Ejemplo n.º 9
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        public static List <Car> CreateCars()
        {
            var ret = new List <Car>();

            DataTable carTable = new DataTable();
            string    query    = "SELECT * FROM cars";

            carTable = DatabaseAccesserEcolog.GetResult(query);

            for (int i = 0; i < carTable.Rows.Count; i++)
            {
                ret.Add(new Car()
                {
                    CarId                = (int)carTable.Rows[i]["car_id"],
                    Model                = (string)carTable.Rows[i]["model"],
                    Battery              = (float)carTable.Rows[i]["battery"],
                    Weight               = (float)carTable.Rows[i]["weight"],
                    TireRadius           = (float)carTable.Rows[i]["tire_radius"],
                    ReductionRatio       = (float)carTable.Rows[i]["reduction_ratio"],
                    CdValue              = (float)carTable.Rows[i]["cd_value"],
                    FrontalProjectedArea = (float)carTable.Rows[i]["frontal_projected_area"]
                });
            }

            return(ret);
        }
Ejemplo n.º 10
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        public static List <Ecolog> ExtractEcolog(int tripId)
        {
            var ret = new List <Ecolog>();

            DataTable ecologTable = new DataTable();
            string    query       = "SELECT * FROM ecolog WHERE trip_id = " + tripId + " ORDER BY jst ASC";

            ecologTable = DatabaseAccesserEcolog.GetResult(query);

            for (int i = 0; i < ecologTable.Rows.Count; i++)
            {
                ret.Add(new Ecolog()
                {
                    TripId                     = (int)ecologTable.Rows[i]["trip_id"],
                    DriverId                   = (int)ecologTable.Rows[i]["driver_id"],
                    CarId                      = (int)ecologTable.Rows[i]["car_id"],
                    SensorId                   = (int)ecologTable.Rows[i]["sensor_id"],
                    Jst                        = (DateTime)ecologTable.Rows[i]["jst"],
                    Latitude                   = (double)ecologTable.Rows[i]["latitude"],
                    Longitude                  = (double)ecologTable.Rows[i]["longitude"],
                    Speed                      = (float)ecologTable.Rows[i]["speed"],
                    Heading                    = (float)ecologTable.Rows[i]["heading"],
                    DistanceDifference         = (float)ecologTable.Rows[i]["distance_difference"],
                    TerrainAltitude            = (float)ecologTable.Rows[i]["terrain_altitude"],
                    TerrainAltitudeDifference  = (float)ecologTable.Rows[i]["terrain_altitude_difference"],
                    LongitudinalAcc            = (ecologTable.Rows[i]["longitudinal_acc"] == DBNull.Value ? -1 : (float)ecologTable.Rows[i]["longitudinal_acc"]),
                    LateralAcc                 = (ecologTable.Rows[i]["lateral_acc"] == DBNull.Value ? -1 : (float)ecologTable.Rows[i]["lateral_acc"]),
                    VerticalAcc                = (ecologTable.Rows[i]["vertical_acc"] == DBNull.Value ? -1 : (float)ecologTable.Rows[i]["vertical_acc"]),
                    EnergyByAirResistance      = (float)ecologTable.Rows[i]["energy_by_air_resistance"],
                    EnergyByRollingResistance  = (float)ecologTable.Rows[i]["energy_by_rolling_resistance"],
                    EnergyByClimbingResistance = (float)ecologTable.Rows[i]["energy_by_climbing_resistance"],
                    EnergyByAccResistance      = (ecologTable.Rows[i]["energy_by_acc_resistance"] == DBNull.Value ? -1 : (float)ecologTable.Rows[i]["energy_by_acc_resistance"]),
                    ConvertLoss                = (float)ecologTable.Rows[i]["convert_loss"],
                    RegeneLoss                 = (float)ecologTable.Rows[i]["regene_loss"],
                    RegeneEnergy               = (float)ecologTable.Rows[i]["regene_energy"],
                    LostEnergy                 = (float)ecologTable.Rows[i]["lost_energy"],
                    Efficiency                 = (float)ecologTable.Rows[i]["efficiency"],
                    ConsumedElectricEnergy     = (float)ecologTable.Rows[i]["consumed_electric_energy"],
                    LostEnergyByWellToWheel    = (ecologTable.Rows[i]["lost_energy_by_well_to_wheel"] == DBNull.Value ? -1 : (float)ecologTable.Rows[i]["lost_energy_by_well_to_wheel"]),
                    ConsumedFuel               = (ecologTable.Rows[i]["consumed_fuel"] == DBNull.Value ? -1 : (float)ecologTable.Rows[i]["consumed_fuel"]),
                    ConsumedFuelByWellToWheel  = (ecologTable.Rows[i]["consumed_fuel_by_well_to_wheel"] == DBNull.Value ? -1 : (float)ecologTable.Rows[i]["consumed_fuel_by_well_to_wheel"]),
                    EnergyByEquipment          = (ecologTable.Rows[i]["energy_by_equipment"] == DBNull.Value ? -1 : (float)ecologTable.Rows[i]["energy_by_equipment"]),
                    EnergyByCooling            = (ecologTable.Rows[i]["energy_by_cooling"] == DBNull.Value ? -1 : (float)ecologTable.Rows[i]["energy_by_cooling"]),
                    EnergyByHeating            = (ecologTable.Rows[i]["energy_by_heating"] == DBNull.Value ? -1 : (float)ecologTable.Rows[i]["energy_by_heating"]),
                    TripDirection              = (ecologTable.Rows[i]["trip_direction"] == DBNull.Value ? null : (string)ecologTable.Rows[i]["trip_direction"]),
                    MeshId                     = (ecologTable.Rows[i]["mesh_id"] == DBNull.Value ? -1 : (int)ecologTable.Rows[i]["mesh_id"]),
                    LinkId                     = (ecologTable.Rows[i]["link_id"] == DBNull.Value ? null : (string)ecologTable.Rows[i]["link_id"]),
                    RoadTheta                  = (ecologTable.Rows[i]["road_theta"] == DBNull.Value ? -1 : (float)ecologTable.Rows[i]["road_theta"])
                });
            }

            return(ret);
        }
Ejemplo n.º 11
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        public static ObservableCollection <Trip> SelectTrips(int driverId, int carId, int sensorId, string direction)
        {
            DataTable tripsTable = new DataTable();
            string    query      = "SELECT trip_id, driver_id, car_id, sensor_id, start_time, end_time, consumed_energy, trip_direction FROM trips WHERE trip_id >= 0";

            if (driverId != 0)
            {
                query = query + " AND driver_id = " + driverId;
            }
            if (carId != 0)
            {
                query = query + " AND car_id = " + carId;
            }
            if (sensorId != 0)
            {
                query = query + " AND sensor_Id = " + sensorId;
            }
            if (direction != "All")
            {
                query = query + " AND trip_direction = '" + direction + "'";
            }

            tripsTable = DatabaseAccesserEcolog.GetResult(query);

            var trips = new ObservableCollection <Trip>();

            for (int i = 0; i < tripsTable.Rows.Count; i++)
            {
                trips.Add(new Trip
                {
                    TripId         = (int)tripsTable.Rows[i]["trip_id"],
                    DriverId       = (int)tripsTable.Rows[i]["driver_id"],
                    CarId          = (int)tripsTable.Rows[i]["car_id"],
                    SensorId       = (int)tripsTable.Rows[i]["sensor_id"],
                    StartTime      = (DateTime)tripsTable.Rows[i]["start_time"],
                    EndTime        = (DateTime)tripsTable.Rows[i]["end_time"],
                    ConsumedEnergy = (tripsTable.Rows[i]["consumed_energy"] == DBNull.Value ? 0 : (float)tripsTable.Rows[i]["consumed_energy"]),
                    TripDirection  = (tripsTable.Rows[i]["trip_direction"] == DBNull.Value ? null : (string)tripsTable.Rows[i]["trip_direction"])
                });
            }

            return(trips);
        }
Ejemplo n.º 12
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        public static SemanticHistogramDatum GetNormalizedStackedTimeInstance(SemanticLink semanticLink, TripDirection direction)
        {
            SemanticHistogramDatum datum = new SemanticHistogramDatum();

            datum.SemanticLink = semanticLink;
            datum.Direction    = direction;

            datum.Sum = DatabaseAccesserEcolog.GetResult("SELECT * FROM funcNormalizedTimeSumOfSemanticLink(" + semanticLink.SemanticLinkId + ", '" + direction.Direction + "')")
                        .AsEnumerable()
                        .Select(x => x.Field <int>("Sum"))
                        .ElementAt(0);

            datum.Number = DatabaseAccesserEcolog.GetResult("SELECT * FROM funcNormalizedTimeNumberOfSemanticLink(" + semanticLink.SemanticLinkId + ", '" + direction.Direction + "')")
                           .AsEnumerable()
                           .Select(x => x.Field <int>("Number"))
                           .ElementAt(0);

            DataTable table = DatabaseAccesserEcolog.GetResult("SELECT * FROM funcNormalizedTimeStackOfSemanticLink(" + semanticLink.SemanticLinkId + ", '" + direction.Direction + "')");

            datum.HistogramData = new List <LevelAndValue>();
            foreach (DataRow row in table.Rows)
            {
                datum.HistogramData.Add(new LevelAndValue()
                {
                    Level = row.Field <int>("Level"), Value = row.Field <int>("Stack") / datum.Number
                });
            }

            datum.MaxLevel = DatabaseAccesserEcolog.GetResult("SELECT * FROM funcNormalizedTimeMaxOfSemanticLink(" + semanticLink.SemanticLinkId + ", '" + direction.Direction + "')")
                             .AsEnumerable()
                             .Select(x => x.Field <int>("Max"))
                             .ElementAt(0);

            datum.MinLevel = DatabaseAccesserEcolog.GetResult("SELECT * FROM funcNormalizedTimeMinOfSemanticLink(" + semanticLink.SemanticLinkId + ", '" + direction.Direction + "')")
                             .AsEnumerable()
                             .Select(x => x.Field <int>("Min"))
                             .ElementAt(0);

            datum.ClassWidth = (int)((datum.MaxLevel - datum.MinLevel) / 10);

            return(datum);
        }
Ejemplo n.º 13
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        public static PhotographicImage CreatePhotographicImage(int tripId, DateTime jst)
        {
            StringBuilder query = new StringBuilder();

            query.AppendLine("SELECT");
            query.AppendLine("  picture.driver_id,");
            query.AppendLine("  picture.car_id,");
            query.AppendLine("  picture.sensor_id,");
            query.AppendLine("  picture.jst,");
            query.AppendLine("  case when picture is null then LAG(picture) over (order by selected_ecolog.jst) else picture end as picture");

            query.AppendLine("FROM (");
            query.AppendLine("  SELECT ecolog.*");
            query.AppendLine("  FROM ecolog as ecolog");
            query.AppendLine("  WHERE ecolog.trip_id = " + tripId);
            query.AppendLine("  AND jst = '" + jst + "'");
            query.AppendLine("  ) AS selected_ecolog");

            query.AppendLine("LEFT JOIN corrected_picture AS picture");
            query.AppendLine("ON selected_ecolog.driver_id = picture.driver_id");
            query.AppendLine("  AND selected_ecolog.jst = picture.jst");
            query.AppendLine("  AND picture.sensor_id = 19");

            query.AppendLine("ORDER BY selected_ecolog.jst");

            DataTable pictureTable;

            pictureTable = DatabaseAccesserEcolog.GetResult(query.ToString());

            return(new PhotographicImage()
            {
                DriverId = (pictureTable.Rows[0]["driver_id"] == DBNull.Value ? -1 : (int)pictureTable.Rows[0]["driver_id"]),
                CarId = (pictureTable.Rows[0]["car_id"] == DBNull.Value ? -1 : (int)pictureTable.Rows[0]["car_id"]),
                SensorId = (pictureTable.Rows[0]["sensor_id"] == DBNull.Value ? -1 : (int)pictureTable.Rows[0]["sensor_id"]),
                Jst = (pictureTable.Rows[0]["jst"] == DBNull.Value ? new DateTime() : (DateTime)pictureTable.Rows[0]["jst"]),
                ImageSource = (pictureTable.Rows[0]["picture"] == DBNull.Value ? new Byte[0] : (Byte[])pictureTable.Rows[0]["picture"])
            });
        }
Ejemplo n.º 14
0
        private async void createPlotModel()
        {
            await Task.Run(() =>
            {
                this.dataTable = DatabaseAccesserEcolog.GetResult(createQuery());
            });

            calculateEnergyParameter();
            calculateTimeParameter();

            var plotModel = new PlotModel();

            plotModel.Subtitle = "SemananticLink: " + semantciLink.Semantics + ", Direction: " + direction.Direction;
            plotModel.Title    = "Semantic Matrix";

            var linearColorAxis = new LinearColorAxis();

            linearColorAxis.HighColor = OxyColors.Gray;
            linearColorAxis.LowColor  = OxyColors.Black;
            linearColorAxis.Position  = AxisPosition.Right;
            plotModel.Axes.Add(linearColorAxis);

            var linearAxis1 = new LinearAxis();

            linearAxis1.Title    = "Time";
            linearAxis1.Unit     = "s";
            linearAxis1.Position = AxisPosition.Bottom;
            plotModel.Axes.Add(linearAxis1);
            var linearAxis2 = new LinearAxis();

            linearAxis2.Title = "Lost Energy";
            linearAxis2.Unit  = "kWh";
            plotModel.Axes.Add(linearAxis2);

            var heatMapSeries1 = new HeatMapSeries();

            heatMapSeries1.LabelFormatString = "0";
            heatMapSeries1.X0            = minExcludedTime;
            heatMapSeries1.X1            = maxExcludedTime;
            heatMapSeries1.Y0            = minExcludedEnergy;
            heatMapSeries1.Y1            = maxExcludedEnergy;
            heatMapSeries1.LabelFontSize = 0.2;
            heatMapSeries1.Data          = new Double[classNumber + 1, classNumber + 1];

            int count = 0; //  for debug

            double preTimeLevel     = 0;
            double currentTimeLevel = minExcludedTime;

            for (int i = 0; i < classNumber + 1; i++)
            {
                double preEnergyLevel     = 0;
                double currentEnergyLevel = minExcludedEnergy;

                for (int j = 0; j < classNumber + 1; j++)
                {
                    heatMapSeries1.Data[i, j] = dataTable.AsEnumerable()
                                                .Where(x => x.Field <double>("SumLostEnergy") > preEnergyLevel)
                                                .Where(x => x.Field <double>("SumLostEnergy") <= currentEnergyLevel)
                                                .Where(x => x.Field <int>("TIME") > preTimeLevel)
                                                .Where(x => x.Field <int>("TIME") <= currentTimeLevel).Count();

                    count += (int)heatMapSeries1.Data[i, j];

                    if (j == 0)
                    {
                        preEnergyLevel = minExcludedEnergy;
                    }
                    else
                    {
                        preEnergyLevel += classWidthEnergy;
                    }

                    currentEnergyLevel += classWidthEnergy;
                }

                if (i == 0)
                {
                    preTimeLevel = minExcludedTime;
                }
                else
                {
                    preTimeLevel += classWidthTime;
                }

                currentTimeLevel += classWidthTime;
            }

            plotModel.Series.Add(heatMapSeries1);

            this.ProgressBarVisibility = System.Windows.Visibility.Collapsed;
            this.PlotModel             = plotModel;
        }
Ejemplo n.º 15
0
        public static SemanticHistogramDatum GetEnergyInstance(SemanticLink semanticLink, TripDirection direction, int sensorID)
        {
            SemanticHistogramDatum datum = new SemanticHistogramDatum();

            datum.SemanticLink = semanticLink;
            datum.Direction    = direction;

            string query = "WITH SelectedSemanticLink ";

            query += "AS ( ";
            query += "	SELECT * ";
            query += "	FROM SEMANTIC_LINKS ";
            query += "	WHERE SEMANTIC_LINK_ID = "+ semanticLink.SemanticLinkId;
            query += "	) ";

            query += "	,ExtractedTrips ";
            query += "AS ( ";
            query += "	SELECT Sensor"+ sensorID + ".TRIP_ID ";
            query += "	FROM TRIPS Sensor12 ";
            query += "	INNER JOIN TRIPS Sensor24 ON DATEPART(YEAR, Sensor12.START_TIME) = DATEPART(YEAR, Sensor24.START_TIME) ";
            query += "		AND DATEPART(MONTH, Sensor12.START_TIME) = DATEPART(MONTH, Sensor24.START_TIME) ";
            query += "		AND DATEPART(DAYOFYEAR, Sensor12.START_TIME) = DATEPART(DAYOFYEAR, Sensor24.START_TIME) ";
            query += "		AND DATEPART(HOUR, Sensor12.START_TIME) = DATEPART(HOUR, Sensor24.START_TIME) ";
            query += "		AND DATEPART(MINUTE, Sensor12.START_TIME) = DATEPART(MINUTE, Sensor24.START_TIME) ";
            query += "	WHERE Sensor12.SENSOR_ID = 12 ";
            query += "		AND Sensor24.SENSOR_ID = 24 ";
            query += "	) ";

            query += "	,ExtractedEcolog ";
            query += "AS ( ";
            query += "	SELECT ECOLOG.TRIP_ID ";
            query += "		,SUM(LOST_ENERGY) AS SumLostEnergy ";
            query += "	FROM ECOLOG ";
            query += "	INNER JOIN ExtractedTrips ON ECOLOG.TRIP_ID = ExtractedTrips.TRIP_ID ";
            query += "	INNER JOIN SelectedSemanticLink ON ECOLOG.LINK_ID = SelectedSemanticLink.LINK_ID ";
            query += "	WHERE ECOLOG.DRIVER_ID = 1 ";
            query += "		AND TRIP_DIRECTION = '"+ direction.Direction + "' ";
            query += "		AND (SENSOR_ID = "+ sensorID + ") ";
            query += "	GROUP BY ECOLOG.TRIP_ID ";
            query += "	) ";

            /*
             * query += "	,NormalizedEcolog ";
             * query += "AS ( ";
             * query += "	SELECT SumLostEnergy ";
             * query += "	FROM ExtractedEcolog ";
             * query += "	WHERE SumLostEnergy <= Q3 + 1.5 * (Q3 - Q1) ";
             * query += "		AND SumLostEnergy >= Q1 - 1.5 * (Q3 - Q1) ";
             * query += "	) ";
             * query += "	,NormalizedEcologClassWidth ";
             * query += "AS ( ";
             * query += "	SELECT (MAX(SumLostEnergy) - MIN(SumLostEnergy)) / 10 AS ClassWidth ";
             * query += "	FROM NormalizedEcolog ";
             * query += "	) ";
             */

            query += "SELECT TOP 100 CEILING(SumLostEnergy / 0.003564219668623985) * 0.003564219668623985 AS LEVEL ";
            query += "	,COUNT(*) AS Number ";
            query += "FROM ExtractedEcolog ";
            // query += "	,NormalizedEcologClassWidth ";
            query += "GROUP BY CEILING(SumLostEnergy / 0.003564219668623985) * 0.003564219668623985 ";
            query += "ORDER BY CEILING(SumLostEnergy / 0.003564219668623985) * 0.003564219668623985 ";

            DataTable table = DatabaseAccesserEcolog.GetResult(query);

            datum.HistogramData = new List <LevelAndValue>();
            foreach (DataRow row in table.Rows)
            {
                datum.HistogramData.Add(new LevelAndValue()
                {
                    Level = row.Field <double>("Level"), Value = row.Field <int>("Number")
                });
            }

            /*
             * query = null;
             *
             * query = "WITH SelectedSemanticLink ";
             * query += "AS ( ";
             * query += "	SELECT * ";
             * query += "	FROM SEMANTIC_LINKS ";
             * query += "	WHERE SEMANTIC_LINK_ID = " + semanticLink.SemanticLinkId;
             * query += "	) ";
             * query += "	,ExtractedTrips ";
             * query += "AS ( ";
             * query += "	SELECT Sensor" + sensorID + ".TRIP_ID ";
             * query += "	FROM TRIPS Sensor12 ";
             * query += "	INNER JOIN TRIPS Sensor24 ON DATEPART(YEAR, Sensor12.START_TIME) = DATEPART(YEAR, Sensor24.START_TIME) ";
             * query += "		AND DATEPART(MONTH, Sensor12.START_TIME) = DATEPART(MONTH, Sensor24.START_TIME) ";
             * query += "		AND DATEPART(DAYOFYEAR, Sensor12.START_TIME) = DATEPART(DAYOFYEAR, Sensor24.START_TIME) ";
             * query += "		AND DATEPART(HOUR, Sensor12.START_TIME) = DATEPART(HOUR, Sensor24.START_TIME) ";
             * query += "		AND DATEPART(MINUTE, Sensor12.START_TIME) = DATEPART(MINUTE, Sensor24.START_TIME) ";
             * query += "	WHERE Sensor12.SENSOR_ID = 12 ";
             * query += "		AND Sensor24.SENSOR_ID = 24 ";
             * query += "	) ";
             * query += "	,ExtractedEcolog ";
             * query += "AS ( ";
             * query += "	SELECT ECOLOG.TRIP_ID ";
             * query += "		,SUM(LOST_ENERGY) AS SumLostEnergy ";
             * query += "		,PERCENTILE_DISC(0.25) WITHIN ";
             * query += "	GROUP ( ";
             * query += "			ORDER BY SUM(LOST_ENERGY) ";
             * query += "			) OVER (PARTITION BY NULL) AS Q1 ";
             * query += "		,PERCENTILE_DISC(0.75) WITHIN ";
             * query += "	GROUP ( ";
             * query += "			ORDER BY SUM(LOST_ENERGY) ";
             * query += "			) OVER (PARTITION BY NULL) AS Q3 ";
             * query += "	FROM ECOLOG ";
             * query += "	INNER JOIN ExtractedTrips ON ECOLOG.TRIP_ID = ExtractedTrips.TRIP_ID ";
             * query += "	INNER JOIN SelectedSemanticLink ON ECOLOG.LINK_ID = SelectedSemanticLink.LINK_ID ";
             * query += "	WHERE ECOLOG.DRIVER_ID = 1 ";
             * query += "		AND TRIP_DIRECTION = '" + direction.Direction + "' ";
             * query += "		AND SENSOR_ID = " + sensorID;
             * query += "	GROUP BY ECOLOG.TRIP_ID ";
             * query += "	) ";
             * query += "SELECT TRIP_ID AS TripID ";
             * query += "	,SumLostEnergy AS Min ";
             * query += "FROM ExtractedEcolog ";
             * query += "WHERE SumLostEnergy = ( ";
             * query += "		SELECT MIN(SumLostEnergy) AS Min ";
             * query += "		FROM ExtractedEcolog ";
             * query += "		WHERE SumLostEnergy >= Q1 - 1.5 * (Q3 - Q1) ";
             * query += "		) ";
             *
             * datum.MinLevel = DatabaseAccesserEcolog.GetResult(query)
             *  .AsEnumerable()
             *  .Select(x => x.Field<double>("Min"))
             *  .ElementAt(0);
             *
             * query = null;
             *
             * query = "WITH SelectedSemanticLink ";
             * query += "AS ( ";
             * query += "	SELECT * ";
             * query += "	FROM SEMANTIC_LINKS ";
             * query += "	WHERE SEMANTIC_LINK_ID = " + semanticLink.SemanticLinkId;
             * query += "	) ";
             * query += "	,ExtractedTrips ";
             * query += "AS ( ";
             * query += "	SELECT Sensor" + sensorID + ".TRIP_ID ";
             * query += "	FROM TRIPS Sensor12 ";
             * query += "	INNER JOIN TRIPS Sensor24 ON DATEPART(YEAR, Sensor12.START_TIME) = DATEPART(YEAR, Sensor24.START_TIME) ";
             * query += "		AND DATEPART(MONTH, Sensor12.START_TIME) = DATEPART(MONTH, Sensor24.START_TIME) ";
             * query += "		AND DATEPART(DAYOFYEAR, Sensor12.START_TIME) = DATEPART(DAYOFYEAR, Sensor24.START_TIME) ";
             * query += "		AND DATEPART(HOUR, Sensor12.START_TIME) = DATEPART(HOUR, Sensor24.START_TIME) ";
             * query += "		AND DATEPART(MINUTE, Sensor12.START_TIME) = DATEPART(MINUTE, Sensor24.START_TIME) ";
             * query += "	WHERE Sensor12.SENSOR_ID = 12 ";
             * query += "		AND Sensor24.SENSOR_ID = 24 ";
             * query += "	) ";
             * query += "	,ExtractedEcolog ";
             * query += "AS ( ";
             * query += "	SELECT ECOLOG.TRIP_ID ";
             * query += "		,SUM(LOST_ENERGY) AS SumLostEnergy ";
             * query += "		,PERCENTILE_DISC(0.25) WITHIN ";
             * query += "	GROUP ( ";
             * query += "			ORDER BY SUM(LOST_ENERGY) ";
             * query += "			) OVER (PARTITION BY NULL) AS Q1 ";
             * query += "		,PERCENTILE_DISC(0.75) WITHIN ";
             * query += "	GROUP ( ";
             * query += "			ORDER BY SUM(LOST_ENERGY) ";
             * query += "			) OVER (PARTITION BY NULL) AS Q3 ";
             * query += "	FROM ECOLOG ";
             * query += "	INNER JOIN ExtractedTrips ON ECOLOG.TRIP_ID = ExtractedTrips.TRIP_ID ";
             * query += "	INNER JOIN SelectedSemanticLink ON ECOLOG.LINK_ID = SelectedSemanticLink.LINK_ID ";
             * query += "	WHERE ECOLOG.DRIVER_ID = 1 ";
             * query += "		AND TRIP_DIRECTION = '" + direction.Direction + "' ";
             * query += "		AND SENSOR_ID = " + sensorID;
             * query += "	GROUP BY ECOLOG.TRIP_ID ";
             * query += "	) ";
             * query += "SELECT TRIP_ID AS TripID ";
             * query += "	,SumLostEnergy AS Max ";
             * query += "FROM ExtractedEcolog ";
             * query += "WHERE SumLostEnergy = ( ";
             * query += "		SELECT MAX(SumLostEnergy) AS Max ";
             * query += "		FROM ExtractedEcolog ";
             * query += "		WHERE SumLostEnergy <= Q3 + 1.5 * (Q3 - Q1) ";
             * query += "		) ";
             *
             * datum.MaxLevel = DatabaseAccesserEcolog.GetResult(query)
             *  .AsEnumerable()
             *  .Select(x => x.Field<double>("Max"))
             *  .ElementAt(0);
             */

            /*
             * datum.MedianLevel = DatabaseAccesserEcolog.GetResult("SELECT * FROM funcNormalizedEnergyMedianOfSemanticLink(" + semanticLink.SemanticLinkId + ", '" + direction.Direction + "')")
             *  .AsEnumerable()
             *  .Select(x => x.Field<double>("Median"))
             *  .ElementAt(0);
             *
             * datum.AvgLevel = DatabaseAccesserEcolog.GetResult("SELECT * FROM funcNormalizedEnergyAvgOfSemanticLink(" + semanticLink.SemanticLinkId + ", '" + direction.Direction + "')")
             *  .AsEnumerable()
             *  .Select(x => x.Field<double>("Avg"))
             *  .ElementAt(0);
             */

            // datum.ModeLevel = datum.HistogramData.First(v => v.Value.Equals(datum.HistogramData.Select(m => m.Value).Max())).Level;

            // datum.HistogramData.Max(x => x.Level);

            // datum.ClassWidth = (datum.MaxLevel - datum.MinLevel) / 10;
            datum.ClassWidth = 0.003564219668623985;

            /*
             * datum.UnderModeData = datum.HistogramData
             *  .Where(v => v.Value <= datum.HistogramData.Max(x => x.Value) * 0.75)
             *  .Where(v => v.Level < datum.ModeLevel)
             *  .ToList();
             *
             * datum.ModeData = datum.HistogramData
             *  .Where(v => v.Value >= datum.HistogramData.Max(x => x.Value) * 0.75)
             *  .ToList();
             *
             * datum.UpperModeData = datum.HistogramData
             *  .Where(v => v.Value <= datum.HistogramData.Max(x => x.Value) * 0.75)
             *  .Where(v => v.Level > datum.ModeLevel)
             *  .ToList();
             *
             * datum.DistUnderMode = datum.UnderModeData.Sum(x => x.Value) * 100 / datum.HistogramData.Sum(x => x.Value);
             * datum.DistMode = datum.ModeData.Sum(x => x.Value) * 100 / datum.HistogramData.Sum(x => x.Value);
             * datum.DistUpperMode = datum.UpperModeData.Sum(x => x.Value) * 100 / datum.HistogramData.Sum(x => x.Value);
             *
             * datum.CompMinMax = datum.MaxLevel * 100 / datum.MinLevel;
             * datum.CompMinMode = datum.ModeLevel * 100 / datum.MinLevel;
             * datum.CompModeMax = datum.MaxLevel * 100 / datum.ModeLevel;
             */

            return(datum);
        }
Ejemplo n.º 16
0
        public static SemanticHistogramDatum GetDistanceNormalizedTimeInstance(SemanticLink semanticLink, TripDirection direction)
        {
            SemanticHistogramDatum datum = new SemanticHistogramDatum();

            datum.SemanticLink = semanticLink;
            datum.Direction    = direction;

            DataTable table = DatabaseAccesserEcolog.GetResult("SELECT * FROM funcNormalizedTimeHistogramOfSemanticLinkWithDistance(" + semanticLink.SemanticLinkId + ", '" + direction.Direction + "')");

            datum.HistogramData = new List <LevelAndValue>();
            foreach (DataRow row in table.Rows)
            {
                datum.HistogramData.Add(new LevelAndValue()
                {
                    Level = row.Field <int>("Level"), Value = row.Field <int>("Number")
                });
            }

            datum.MaxLevel = DatabaseAccesserEcolog.GetResult("SELECT * FROM funcNormalizedTimeMaxOfSemanticLinkWithDistance(" + semanticLink.SemanticLinkId + ", '" + direction.Direction + "')")
                             .AsEnumerable()
                             .Select(x => x.Field <double>("Max"))
                             .ElementAt(0);

            datum.MinLevel = DatabaseAccesserEcolog.GetResult("SELECT * FROM funcNormalizedTimeMinOfSemanticLinkWithDistance(" + semanticLink.SemanticLinkId + ", '" + direction.Direction + "')")
                             .AsEnumerable()
                             .Select(x => x.Field <double>("Min"))
                             .ElementAt(0);

            datum.MedianLevel = DatabaseAccesserEcolog.GetResult("SELECT * FROM funcNormalizedTimeMedianOfSemanticLinkWithDistance(" + semanticLink.SemanticLinkId + ", '" + direction.Direction + "')")
                                .AsEnumerable()
                                .Select(x => x.Field <double>("Median"))
                                .ElementAt(0);

            datum.AvgLevel = DatabaseAccesserEcolog.GetResult("SELECT * FROM funcNormalizedTimeAvgOfSemanticLinkWithDistance(" + semanticLink.SemanticLinkId + ", '" + direction.Direction + "')")
                             .AsEnumerable()
                             .Select(x => x.Field <double>("Avg"))
                             .ElementAt(0);

            datum.ModeLevel = datum.HistogramData.First(v => v.Value.Equals(datum.HistogramData.Select(m => m.Value).Max())).Level;

            datum.HistogramData.Max(x => x.Level);

            datum.ClassWidth = (int)((datum.MaxLevel - datum.MinLevel) / 10);

            datum.UnderModeData = datum.HistogramData
                                  .Where(v => v.Value <= datum.HistogramData.Max(x => x.Value) * 0.75)
                                  .Where(v => v.Level < datum.ModeLevel)
                                  .ToList();

            datum.ModeData = datum.HistogramData
                             .Where(v => v.Value >= datum.HistogramData.Max(x => x.Value) * 0.75)
                             .ToList();

            datum.UpperModeData = datum.HistogramData
                                  .Where(v => v.Value <= datum.HistogramData.Max(x => x.Value) * 0.75)
                                  .Where(v => v.Level > datum.ModeLevel)
                                  .ToList();

            datum.DistUnderMode = datum.UnderModeData.Sum(x => x.Value) * 100 / datum.HistogramData.Sum(x => x.Value);
            datum.DistMode      = datum.ModeData.Sum(x => x.Value) * 100 / datum.HistogramData.Sum(x => x.Value);
            datum.DistUpperMode = datum.UpperModeData.Sum(x => x.Value) * 100 / datum.HistogramData.Sum(x => x.Value);

            datum.CompMinMax  = datum.MaxLevel * 100 / datum.MinLevel;
            datum.CompMinMode = datum.ModeLevel * 100 / datum.MinLevel;
            datum.CompModeMax = datum.MaxLevel * 100 / datum.ModeLevel;

            return(datum);
        }