Ejemplo n.º 1
0
 // Crayted measurements from coordinates
 private TerrestrialObservation AddMeasurements(TerrestrialPosition coords, TerrestrialObservation observation)
 {
     observation.EdmDistance             = Math.Sqrt(Math.Pow(coords.Easting, 2) + Math.Pow(coords.Northing, 2) + Math.Pow(coords.Elevation, 2));
     observation.HorizontalCircleReading = Math.Atan2(coords.Easting, coords.Northing);
     observation.VerticalAngle           = Math.Atan2(Math.Sqrt(Math.Pow(coords.Easting, 2) + Math.Pow(coords.Northing, 2)), coords.Elevation);
     return(observation);
 }
Ejemplo n.º 2
0
        // Calculates Face2 from Face1
        public TerrestrialObservation FlipFace(TerrestrialObservation observation)
        {
            observation.HorizontalCircleReading = observation.HorizontalCircleReading + Math.PI;
            if (observation.HorizontalCircleReading > Math.PI * 2)
            {
                observation.HorizontalCircleReading = observation.HorizontalCircleReading - Math.PI * 2;
            }

            observation.VerticalAngle   = Math.PI * 2 - observation.VerticalAngle;
            observation.ObservationType = "Face2";
            observation.TimeUtc.AddSeconds(30);
            return(observation);
        }
Ejemplo n.º 3
0
        public TerrestrialObservation GetTerrestrialObservation(string target, Config config, Random rnd, int step, bool fail)
        {
            // create a new observation
            TerrestrialObservation observation = new TerrestrialObservation {
                PointId         = target,
                ObservationType = "Face1",
                // Not used ritght now ...
                Pressure         = 930,
                PrismConstant    = 0,
                TargetHeight     = 0,
                CompensatorTiltX = 0,
                CompensatorTiltY = 0,
            };

            _Fail = fail;
            double j = step * Increment(config.Interval);

            // Add calculated data to the observation
            observation.Temperature = Math.Round(config.Temperature + Math.Sin(j * Math.PI) * 0.8, 1);
            TerrestrialPosition    position = GetCoords(config.Targets[target], j, rnd);
            TerrestrialObservation obsnew   = AddMeasurements(position, observation);

            return(obsnew);
        }
Ejemplo n.º 4
0
        public Simulator(string config)
        {
            // Loads configuration
            _Config = JsonConvert.DeserializeObject <Config>(File.ReadAllText(config));

            // Sets starting parameters
            Random rnd        = new Random();
            int    i          = 0;
            int    tag        = 0;
            int    day        = 1440 / _Config.Interval - 1;
            int    timeTofail = Convert.ToInt32(day * _Config.Days * _Config.AddOutliers);
            bool   fail       = false;
            List <TerrestrialObservation>       observations = new List <TerrestrialObservation>();
            Dictionary <string, List <string> > failList     = new Dictionary <string, List <string> >();

            // Documantation for outliers
            foreach (var target in _Config.Targets)
            {
                failList.Add(target.Key, new List <string>());
            }

            Console.WriteLine("Ready to generate " + (day * _Config.Days).ToString() + " Observations");
            Console.ReadLine();

            while (i < day * _Config.Days)
            {
                i++;
                // new message
                TerrestrialRoundMessage message = new TerrestrialRoundMessage
                {
                    DeviceId      = _Config.DeviceId,
                    RoundStartUtc = _Config.StartTime.AddMinutes(i * _Config.Interval),
                    Station       = _Config.Station
                };
                message.RoundId = CalcRoundId(_Config.DeviceId, message.RoundStartUtc, _Config.Station);

                // Send station record
                _MessageSender.SendStationRecord(message);

                // Crating observation message
                foreach (var target in _Config.Targets)
                {
                    // deciding if the new observation is an outlier
                    if (i > timeTofail)
                    {
                        if (failList[target.Key].Count == 0)
                        {
                            if (rnd.NextDouble() > 0.9)
                            {
                                fail = true;
                                failList[target.Key].Add(i.ToString());
                            }
                        }
                        else if (i - Convert.ToInt16(failList[target.Key][failList[target.Key].Count - 1]) > 4) // this prevents that there are 2 outliers too close to another
                        {
                            if (rnd.NextDouble() > 0.9)
                            {
                                fail = true;
                                failList[target.Key].Add(i.ToString());
                            }
                        }
                    }

                    //generating the observation
                    var obs = _DataGenerator.GetTerrestrialObservation(target.Key, _Config, rnd, i, fail);

                    // save observations to the list
                    obs.TimeUtc = message.RoundStartUtc.AddMinutes(tag);
                    observations.Add(obs);
                    TerrestrialObservation face2 = clone(obs);
                    observations.Add(_DataGenerator.FlipFace(face2));

                    // resetting parameters for next loop
                    fail = false;
                    tag++;
                }

                // adding observations to message and sending the message
                message.Observations = observations.ToArray();
                _MessageSender.SendObservationRecord(message);
                message.Observations = null;
                message.RoundEndUtc  = message.RoundStartUtc.AddMinutes(tag + 1);
                _MessageSender.SendRoundEnd(message);

                //Resetting values for next loop
                tag = 0;
                observations.Clear();
            }

            foreach (var target in failList)
            {
                File.WriteAllLines(_Config.FailSavePath + _Config.DeviceId + target.Key + ".csv", (target.Value.ToArray()));
            }
            Console.WriteLine("Finished sending messages");
            Console.ReadLine();
        }
Ejemplo n.º 5
0
        private TerrestrialObservation clone(TerrestrialObservation terrestrialObservation)
        {
            string desi = JsonConvert.SerializeObject(terrestrialObservation);

            return(JsonConvert.DeserializeObject <TerrestrialObservation>(desi));
        }