Exemplos de RichardsTech.Sensors SensorReadings em C# (CSharp)

Exemplo n.º 1

Arquivo: Sensor.cs Projeto: harshatech2012/RPi.SenseHat

		protected void AssignNewReadings(SensorReadings readings, bool processReadings = true)
		{
			if (processReadings)
			{
				ProcessReadings(ref readings);
			}

			Readings = readings;

			OnReadingsChanged?.Invoke(this, EventArgs.Empty);
		}

Exemplo n.º 2

Arquivo: SensorFusionRTQF.cs Projeto: qizhiyu/RPi.SenseHat

		internal override void ProcessNewImuReadings(ref SensorReadings imuReadings)
		{
			SampleNumber++;

			Gyro = EnableGyro && imuReadings.GyroValid
				? (Vector3?)imuReadings.Gyro
				: null;

			Acceleration = EnableAcceleration && imuReadings.AccelerationValid
				? (Vector3?)imuReadings.Acceleration
				: null;

			MagneticField = EnableMagneticField && imuReadings.MagneticFieldValid
				? (Vector3?)imuReadings.MagneticField
				: null;

			if (FirstTime)
			{
				LastFusionTime = imuReadings.Timestamp;
				CalculatePose(Acceleration, MagneticField, CompassAdjDeclination);

				//  initialize the poses

				StateQ.FromEuler(MeasuredPose);
				FusionQPose = StateQ;
				FusionPose = MeasuredPose;
				FirstTime = false;
			}
			else
			{
				TimeDelta = imuReadings.Timestamp - LastFusionTime;
				if (TimeDelta > TimeSpan.Zero)
				{
					CalculatePose(Acceleration, MagneticField, CompassAdjDeclination);
					Predict();
					Update();
					StateQ.ToEuler(out FusionPose);
					FusionQPose = StateQ;
				}

				LastFusionTime = imuReadings.Timestamp;
			}

			imuReadings.FusionPoseValid = true;
			imuReadings.FusionQPoseValid = true;
			imuReadings.FusionPose = FusionPose;
			imuReadings.FusionQPose = FusionQPose;
		}

Exemplo n.º 3

Arquivo: SensorThread.cs Projeto: emmellsoft/RTIMULibCS

		private static bool TryReadSensor(
			Sensor sensor,
			out SensorReadings readings,
			out string errorMessage)
		{
			errorMessage = string.Empty;

			if (sensor.Initiated)
			{
				try
				{
					if (sensor.Update())
					{
						readings = sensor.Readings;
						return true;
					}
				}
				catch (Exception exception)
				{
					errorMessage = exception.Message;
				}
			}

			readings = new SensorReadings();
			return false;
		}

Exemplo n.º 4

Arquivo: Sensor.cs Projeto: harshatech2012/RPi.SenseHat

		protected virtual void ProcessReadings(ref SensorReadings readings)
		{
		}

Exemplo n.º 5

Arquivo: ImuSensor.cs Projeto: harshatech2012/RPi.SenseHat

		/// <summary>
		/// Assign a new reading from an external source
		/// </summary>
		public void SetExtData(
			double gx,
			double gy,
			double gz,
			double ax,
			double ay,
			double az,
			double mx,
			double my,
			double mz,
			DateTime timestamp)
		{
			var readings = new SensorReadings
			{
				Gyro = new Vector3(gx, gy, gz),
				Acceleration = new Vector3(ax, ay, az),
				MagneticField = new Vector3(mx, my, mz),
				Timestamp = timestamp
			};

			AssignNewReadings(readings, false);
		}

Exemplo n.º 6

Arquivo: ImuSensor.cs Projeto: harshatech2012/RPi.SenseHat

		private void SetCalibrationData(SensorReadings readings)
		{
			if (!readings.MagneticFieldValid)
			{
				return;
			}

			bool changed = false;

			// see if there is a new max or min

			if (_magMax[0] < readings.MagneticField.X)
			{
				_magMax[0] = readings.MagneticField.X;
				changed = true;
			}

			if (_magMax[1] < readings.MagneticField.Y)
			{
				_magMax[1] = readings.MagneticField.Y;
				changed = true;
			}

			if (_magMax[2] < readings.MagneticField.Z)
			{
				_magMax[2] = readings.MagneticField.Z;
				changed = true;
			}

			if (_magMin[0] > readings.MagneticField.X)
			{
				_magMin[0] = readings.MagneticField.X;
				changed = true;
			}

			if (_magMin[1] > readings.MagneticField.Y)
			{
				_magMin[1] = readings.MagneticField.Y;
				changed = true;
			}

			if (_magMin[2] > readings.MagneticField.Z)
			{
				_magMin[2] = readings.MagneticField.Z;
				changed = true;
			}

			if (!changed)
			{
				return;
			}

			double delta;

			if (!MagCalValid)
			{
				MagCalValid = true;

				for (int i = 0; i < 3; i++)
				{
					delta = _magMax[i] - _magMin[i];
					if ((delta < 30) || (_magMin[i] > 0) || (_magMax[i] < 0))
					{
						MagCalValid = false;
						break;
					}
				}
			}

			if (MagCalValid)
			{
				_magMaxDelta = -1;

				for (int i = 0; i < 3; i++)
				{
					if ((_magMax[i] - _magMin[i]) > _magMaxDelta)
					{
						_magMaxDelta = _magMax[i] - _magMin[i];
					}
				}

				// adjust for + and - range

				_magMaxDelta /= 2.0;
			}

			for (int i = 0; i < 3; i++)
			{
				delta = (_magMax[i] - _magMin[i]) / 2.0;
				_magCalScale[i] = _magMaxDelta / delta;
				_magCalOffset[i] = (_magMax[i] + _magMin[i]) / 2.0;
			}
		}

Exemplo n.º 7

Arquivo: ImuSensor.cs Projeto: harshatech2012/RPi.SenseHat

		private void CalibrateAverageCompass(ref SensorReadings readings)
		{
			//  calibrate if required

			SetCalibrationData(readings);

			if (readings.MagneticFieldValid)
			{
				if (MagCalValid)
				{
					readings.MagneticField.X = (readings.MagneticField.X - _magCalOffset[0]) * _magCalScale[0];
					readings.MagneticField.Y = (readings.MagneticField.Y - _magCalOffset[1]) * _magCalScale[1];
					readings.MagneticField.Z = (readings.MagneticField.Z - _magCalOffset[2]) * _magCalScale[2];
				}

				//  update running average

				_magAverage.X = readings.MagneticField.X * CompassAlpha + _magAverage.X * (1.0 - CompassAlpha);
				_magAverage.Y = readings.MagneticField.Y * CompassAlpha + _magAverage.Y * (1.0 - CompassAlpha);
				_magAverage.Z = readings.MagneticField.Z * CompassAlpha + _magAverage.Z * (1.0 - CompassAlpha);

				readings.MagneticField = _magAverage;
			}
		}

Exemplo n.º 8

Arquivo: ImuSensor.cs Projeto: harshatech2012/RPi.SenseHat

		private void HandleGyroBias(ref SensorReadings readings)
		{
			if (readings.AccelerationValid)
			{
				Vector3 deltaAccel = _previousAccel;
				deltaAccel -= readings.Acceleration; // compute difference
				_previousAccel = readings.Acceleration;

				if (readings.GyroValid)
				{
					if ((deltaAccel.Length() < FuzzyAccelZero) && (readings.Gyro.Length() < FuzzyGyroZero))
					{
						// what we are seeing on the gyros should be bias only so learn from this

						if (_gyroSampleCount < (5 * SampleRate))
						{
							_gyroBias.X = (1.0 - _gyroLearningAlpha) * _gyroBias.X + _gyroLearningAlpha * readings.Gyro.X;
							_gyroBias.Y = (1.0 - _gyroLearningAlpha) * _gyroBias.Y + _gyroLearningAlpha * readings.Gyro.Y;
							_gyroBias.Z = (1.0 - _gyroLearningAlpha) * _gyroBias.Z + _gyroLearningAlpha * readings.Gyro.Z;

							_gyroSampleCount++;

							if (_gyroSampleCount == (5 * SampleRate))
							{
								// this could have been true already of course
								GyroBiasValid = true;
							}
						}
						else
						{
							_gyroBias.X = (1.0 - _gyroContinuousAlpha) * _gyroBias.X + _gyroContinuousAlpha * readings.Gyro.X;
							_gyroBias.Y = (1.0 - _gyroContinuousAlpha) * _gyroBias.Y + _gyroContinuousAlpha * readings.Gyro.Y;
							_gyroBias.Z = (1.0 - _gyroContinuousAlpha) * _gyroBias.Z + _gyroContinuousAlpha * readings.Gyro.Z;
						}
					}

					readings.Gyro -= _gyroBias;
				}
			}
		}

Exemplo n.º 9

Arquivo: ImuSensor.cs Projeto: harshatech2012/RPi.SenseHat

		private void PerformAxisRotation(ref SensorReadings readings)
		{
			if (readings.GyroValid)
			{
				readings.Gyro = AxisRotation.Rotate(readings.Gyro);
			}

			if (readings.AccelerationValid)
			{
				readings.Acceleration = AxisRotation.Rotate(readings.Acceleration);
			}

			if (readings.MagneticFieldValid)
			{
				readings.MagneticField = AxisRotation.Rotate(readings.MagneticField);
			}
		}

Exemplo n.º 10

Arquivo: ImuSensor.cs Projeto: harshatech2012/RPi.SenseHat

		protected override void ProcessReadings(ref SensorReadings readings)
		{
			PerformAxisRotation(ref readings);

			HandleGyroBias(ref readings);

			CalibrateAverageCompass(ref readings);

			Fusion.ProcessNewImuReadings(ref readings);
		}