Fixed compilation errors
dellaert
parent
7407b605b9
commit
0310eb4e7b
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@ -126,9 +126,10 @@ void PreintegrationBase::updatePreintegratedJacobians(const Vector3& correctedAc
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update_delRdelBiasOmega(D_Rincr_integratedOmega, incrR, deltaT);
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}
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void PreintegrationBase::correctMeasurementsByBiasAndSensorPose(
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const Vector3& measuredAcc, const Vector3& measuredOmega, Vector3& correctedAcc,
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Vector3& correctedOmega, boost::optional<const Pose3&> body_P_sensor) {
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std::pair<Vector3, Vector3> PreintegrationBase::correctMeasurementsByBiasAndSensorPose(
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const Vector3& measuredAcc, const Vector3& measuredOmega,
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boost::optional<const Pose3&> body_P_sensor) const {
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Vector3 correctedAcc, correctedOmega;
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correctedAcc = biasHat_.correctAccelerometer(measuredAcc);
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correctedOmega = biasHat_.correctGyroscope(measuredOmega);
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@ -136,12 +137,14 @@ void PreintegrationBase::correctMeasurementsByBiasAndSensorPose(
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// (originally in the IMU frame) into the body frame
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if (body_P_sensor) {
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Matrix3 body_R_sensor = body_P_sensor->rotation().matrix();
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correctedOmega = body_R_sensor * correctedOmega; // rotation rate vector in the body frame
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correctedOmega = body_R_sensor * correctedOmega; // rotation rate vector in the body frame
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Matrix3 body_omega_body__cross = skewSymmetric(correctedOmega);
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correctedAcc = body_R_sensor * correctedAcc
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- body_omega_body__cross * body_omega_body__cross * body_P_sensor->translation().vector();
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- body_omega_body__cross * body_omega_body__cross
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* body_P_sensor->translation().vector();
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// linear acceleration vector in the body frame
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}
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return std::make_pair(correctedAcc, correctedOmega);
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}
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/// Predict state at time j
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@ -133,24 +133,10 @@ class PreintegrationBase : public PreintegratedRotation {
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const Matrix3& D_Rincr_integratedOmega, const Rot3& incrR,
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double deltaT);
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boost::tuple<Vector3, Vector3>
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std::pair<Vector3, Vector3>
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correctMeasurementsByBiasAndSensorPose(const Vector3& measuredAcc,
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const Vector3& measuredOmega, boost::optional<const Pose3&> body_P_sensor) {
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Vector3 correctedAcc, correctedOmega;
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correctedAcc = biasHat_.correctAccelerometer(measuredAcc);
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correctedOmega = biasHat_.correctGyroscope(measuredOmega);
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// Then compensate for sensor-body displacement: we express the quantities
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// (originally in the IMU frame) into the body frame
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if(body_P_sensor){
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Matrix3 body_R_sensor = body_P_sensor->rotation().matrix();
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correctedOmega = body_R_sensor * correctedOmega; // rotation rate vector in the body frame
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Matrix3 body_omega_body__cross = skewSymmetric(correctedOmega);
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correctedAcc = body_R_sensor * correctedAcc - body_omega_body__cross * body_omega_body__cross * body_P_sensor->translation().vector();
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// linear acceleration vector in the body frame
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}
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return boost::make_tuple(correctedAcc, correctedOmega);
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}
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const Vector3& measuredOmega,
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boost::optional<const Pose3&> body_P_sensor) const;
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/// Predict state at time j
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PoseVelocityBias predict(
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