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Got rid of spurious argument

release/4.3a0
Frank Dellaert 2016-01-30 13:29:02 -08:00
parent 14a87c4ecc
commit 77d4e4c33e
4 changed files with 18 additions and 24 deletions
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32
gtsam/navigation/CombinedImuFactor.cpp
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@ -67,31 +67,28 @@ void PreintegratedCombinedMeasurements::resetIntegration() {
//------------------------------------------------------------------------------
void PreintegratedCombinedMeasurements::integrateMeasurement(
const Vector3& measuredAcc, const Vector3& measuredOmega, double dt) {
const Matrix3 dRij = deltaRij().matrix(); // expensive when quaternion
// Update preintegrated measurements.
Matrix3 D_incrR_integratedOmega; // Right jacobian computed at theta_incr
Matrix9 A; // overall Jacobian wrt preintegrated measurements (df/dx)
Matrix93 B, C;
PreintegrationBase::update(measuredAcc, measuredOmega, dt,
&D_incrR_integratedOmega, &A, &B, &C);
PreintegrationBase::update(measuredAcc, measuredOmega, dt, &A, &B, &C);
// Update preintegrated measurements covariance: as in [2] we consider a first
// order propagation that can be seen as a prediction phase in an EKF
// framework. In this implementation, contrarily to [2] we consider the
// framework. In this implementation, in contrast to [2], we consider the
// uncertainty of the bias selection and we keep correlation between biases
// and preintegrated measurements
// Single Jacobians to propagate covariance
Matrix3 H_vel_biasacc = -dRij * dt;
Matrix3 H_angles_biasomega = -D_incrR_integratedOmega * dt;
// TODO(frank): should we not also accout for bias on position?
Matrix3 theta_H_biasOmega = - C.topRows<3>();
Matrix3 vel_H_biasAcc = -B.bottomRows<3>();
// overall Jacobian wrt preintegrated measurements (df/dx)
Eigen::Matrix<double, 15, 15> F;
F.setZero();
F.block<9, 9>(0, 0) = A;
F.block<3, 3>(0, 12) = H_angles_biasomega;
F.block<3, 3>(6, 9) = H_vel_biasacc;
F.block<3, 3>(0, 12) = theta_H_biasOmega;
F.block<3, 3>(6, 9) = vel_H_biasAcc;
F.block<6, 6>(9, 9) = I_6x6;
// propagate uncertainty
@ -101,24 +98,25 @@ void PreintegratedCombinedMeasurements::integrateMeasurement(
const Matrix3& iCov = p().integrationCovariance;
// first order uncertainty propagation
// Optimized matrix multiplication (1/dt) * G * measurementCovariance * G.transpose()
// Optimized matrix multiplication (1/dt) * G * measurementCovariance *
// G.transpose()
Eigen::Matrix<double, 15, 15> G_measCov_Gt;
G_measCov_Gt.setZero(15, 15);
// BLOCK DIAGONAL TERMS
D_t_t(&G_measCov_Gt) = dt * iCov;
D_v_v(&G_measCov_Gt) = (1 / dt) * H_vel_biasacc *
D_v_v(&G_measCov_Gt) = (1 / dt) * vel_H_biasAcc *
(aCov + p().biasAccOmegaInt.block<3, 3>(0, 0)) *
(H_vel_biasacc.transpose());
D_R_R(&G_measCov_Gt) = (1 / dt) * H_angles_biasomega *
(vel_H_biasAcc.transpose());
D_R_R(&G_measCov_Gt) = (1 / dt) * theta_H_biasOmega *
(wCov + p().biasAccOmegaInt.block<3, 3>(3, 3)) *
(H_angles_biasomega.transpose());
(theta_H_biasOmega.transpose());
D_a_a(&G_measCov_Gt) = dt * p().biasAccCovariance;
D_g_g(&G_measCov_Gt) = dt * p().biasOmegaCovariance;
// OFF BLOCK DIAGONAL TERMS
Matrix3 temp = H_vel_biasacc * p().biasAccOmegaInt.block<3, 3>(3, 0) *
H_angles_biasomega.transpose();
Matrix3 temp = vel_H_biasAcc * p().biasAccOmegaInt.block<3, 3>(3, 0) *
theta_H_biasOmega.transpose();
D_v_R(&G_measCov_Gt) = temp;
D_R_v(&G_measCov_Gt) = temp.transpose();
preintMeasCov_ = F * preintMeasCov_ * F.transpose() + G_measCov_Gt;

4
gtsam/navigation/ImuFactor.cpp
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@ -55,9 +55,7 @@ void PreintegratedImuMeasurements::integrateMeasurement(
// Update preintegrated measurements (also get Jacobian)
Matrix9 A; // overall Jacobian wrt preintegrated measurements (df/dx)
Matrix93 B, C;
Matrix3 D_incrR_integratedOmega;
PreintegrationBase::update(measuredAcc, measuredOmega, dt,
&D_incrR_integratedOmega, &A, &B, &C);
PreintegrationBase::update(measuredAcc, measuredOmega, dt, &A, &B, &C);
// first order covariance propagation:
// as in [2] we consider a first order propagation that can be seen as a

3
gtsam/navigation/PreintegrationBase.cpp
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@ -211,8 +211,7 @@ Vector9 PreintegrationBase::updatedPreintegrated(const Vector3& measuredAcc,
//------------------------------------------------------------------------------
void PreintegrationBase::update(const Vector3& measuredAcc,
const Vector3& measuredOmega, double dt,
Matrix3* D_incrR_integratedOmega, Matrix9* A,
Matrix93* B, Matrix93* C) {
Matrix9* A, Matrix93* B, Matrix93* C) {
// Do update
deltaTij_ += dt;
preintegrated_ = updatedPreintegrated(measuredAcc, measuredOmega, dt, A, B, C);

3
gtsam/navigation/PreintegrationBase.h
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@ -188,8 +188,7 @@ public:
/// Update preintegrated measurements and get derivatives
/// It takes measured quantities in the j frame
void update(const Vector3& measuredAcc, const Vector3& measuredOmega,
const double deltaT, Matrix3* D_incrR_integratedOmega, Matrix9* A,
Matrix93* B, Matrix93* C);
const double deltaT, Matrix9* A, Matrix93* B, Matrix93* C);
/// Given the estimate of the bias, return a NavState tangent vector
/// summarizing the preintegrated IMU measurements so far