magnetic.h

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//=================================================================================================
// Copyright (c) 2011, Johannes Meyer, TU Darmstadt
// All rights reserved.

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// modification, are permitted provided that the following conditions are met:
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//       notice, this list of conditions and the following disclaimer.
//     * Redistributions in binary form must reproduce the above copyright
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//     * Neither the name of the Flight Systems and Automatic Control group,
//       TU Darmstadt, nor the names of its contributors may be used to
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#ifndef HECTOR_POSE_ESTIMATION_MAGNETIC_H
#define HECTOR_POSE_ESTIMATION_MAGNETIC_H

#include <hector_pose_estimation/measurement.h>
#include <hector_pose_estimation/global_reference.h>

namespace hector_pose_estimation {

class MagneticModel : public MeasurementModel_<MagneticModel,3> {
public:
  EIGEN_MAKE_ALIGNED_OPERATOR_NEW

  MagneticModel();
  virtual ~MagneticModel();

  virtual bool init(PoseEstimation &estimator, Measurement &measurement, State &state);

  virtual SystemStatus getStatusFlags() { return STATE_YAW; }

  virtual void getMeasurementNoise(NoiseVariance& R, const State&, bool init);
  virtual void getExpectedValue(MeasurementVector& y_pred, const State& state);
  virtual void getStateJacobian(MeasurementMatrix& C, const State& state, bool init);

  double getMagneticHeading(const State& state, const MeasurementVector& y) const;
  double getTrueHeading(const State& state, const MeasurementVector& y) const;

  void setReference(const GlobalReference::Heading &reference_heading);
  bool hasMagnitude() const { return magnitude_ != 0.0; }

protected:
  double stddev_;
  double declination_, inclination_, magnitude_;
  void updateMagneticField();

  MeasurementVector magnetic_field_north_;
  MeasurementVector magnetic_field_reference_;
};

extern template class Measurement_<MagneticModel>;

class Magnetic : public Measurement_<MagneticModel>
{
public:
  EIGEN_MAKE_ALIGNED_OPERATOR_NEW

  using Measurement_<MagneticModel>::Model;
  using Measurement_<MagneticModel>::Update;

  enum { MeasurementDimension = Measurement_<MagneticModel>::MeasurementDimension };
  using Measurement_<MagneticModel>::MeasurementVector;
  using Measurement_<MagneticModel>::NoiseVariance;

  Magnetic(const std::string& name = "height");
  virtual ~Magnetic() {}

  virtual void onReset();

  virtual MeasurementVector const& getVector(const Update &update, const State&);
//  virtual NoiseVariance const& getVariance(const Update &update, const State&);

  virtual bool prepareUpdate(State &state, const Update &update);

private:
  bool auto_heading_;
  GlobalReferencePtr reference_;
  ColumnVector deviation_;

  MeasurementVector y_;
  NoiseVariance R_;
};

} // namespace hector_pose_estimation

#endif // HECTOR_POSE_ESTIMATION_MAGNETIC_H