Data association
// typedefs typedef size_t mrpt::slam::observation_index_t; typedef size_t mrpt::slam::prediction_index_t; // enums enum mrpt::slam::TDataAssociationMethod; enum mrpt::slam::TDataAssociationMetric; // structs struct mrpt::slam::TDataAssociationResults; // global functions void mrpt::slam::data_association_full_covariance( const mrpt::math::CMatrixDouble& Z_observations_mean, const mrpt::math::CMatrixDouble& Y_predictions_mean, const mrpt::math::CMatrixDouble& Y_predictions_cov, TDataAssociationResults& results, const TDataAssociationMethod method = assocJCBB, const TDataAssociationMetric metric = metricMaha, const double chi2quantile = 0.99, const bool DAT_ASOC_USE_KDTREE = true, const std::vector<prediction_index_t>& predictions_IDs = std::vector<prediction_index_t>(), const TDataAssociationMetric compatibilityTestMetric = metricMaha, const double log_ML_compat_test_threshold = 0.0 ); void mrpt::slam::data_association_independent_predictions( const mrpt::math::CMatrixDouble& Z_observations_mean, const mrpt::math::CMatrixDouble& Y_predictions_mean, const mrpt::math::CMatrixDouble& Y_predictions_cov, TDataAssociationResults& results, const TDataAssociationMethod method = assocJCBB, const TDataAssociationMetric metric = metricMaha, const double chi2quantile = 0.99, const bool DAT_ASOC_USE_KDTREE = true, const std::vector<prediction_index_t>& predictions_IDs = std::vector<prediction_index_t>(), const TDataAssociationMetric compatibilityTestMetric = metricMaha, const double log_ML_compat_test_threshold = 0.0 );
Typedefs
typedef size_t mrpt::slam::observation_index_t
Used in mrpt::slam::TDataAssociationResults.
typedef size_t mrpt::slam::prediction_index_t
Used in mrpt::slam::TDataAssociationResults.
Global Functions
void mrpt::slam::data_association_full_covariance( const mrpt::math::CMatrixDouble& Z_observations_mean, const mrpt::math::CMatrixDouble& Y_predictions_mean, const mrpt::math::CMatrixDouble& Y_predictions_cov, TDataAssociationResults& results, const TDataAssociationMethod method = assocJCBB, const TDataAssociationMetric metric = metricMaha, const double chi2quantile = 0.99, const bool DAT_ASOC_USE_KDTREE = true, const std::vector<prediction_index_t>& predictions_IDs = std::vector<prediction_index_t>(), const TDataAssociationMetric compatibilityTestMetric = metricMaha, const double log_ML_compat_test_threshold = 0.0 )
Computes the data-association between the prediction of a set of landmarks and their observations, all of them with covariance matrices - Generic version with prediction full cross-covariances.
Implemented methods include (see TDataAssociation)
NN: Nearest-neighbor
JCBB: Joint Compatibility Branch & Bound [4]
With both a Mahalanobis-distance or Matching-likelihood metric. For a comparison of both methods, see paper [1]
Parameters:
Z_observations_mean |
[IN] An MxO matrix with the M observations, each row containing the observation “mean”. |
Y_predictions_mean |
[IN] An NxO matrix with the N predictions, each row containing the mean of one prediction. |
Y_predictions_cov |
[IN] An N*OxN*O matrix with the full covariance matrix of all the N predictions. |
results |
[OUT] The output data association hypothesis, and other useful information. |
method |
[IN, optional] The selected method to make the associations. |
chi2quantile |
[IN, optional] The threshold for considering a match between two close Gaussians for two landmarks, in the range [0,1]. It is used to call mrpt::math::chi2inv |
use_kd_tree |
[IN, optional] Build a KD-tree to speed-up the evaluation of individual compatibility (IC). It’s perhaps more efficient to disable it for a small number of features. (default=true). |
predictions_IDs |
[IN, optional] (default:none) An N-vector. If provided, the resulting associations in “results.associations” will not contain prediction indices “i”, but “predictions_IDs[i]”. |
See also:
data_association_independent_predictions, data_association_independent_2d_points, data_association_independent_3d_points
void mrpt::slam::data_association_independent_predictions( const mrpt::math::CMatrixDouble& Z_observations_mean, const mrpt::math::CMatrixDouble& Y_predictions_mean, const mrpt::math::CMatrixDouble& Y_predictions_cov, TDataAssociationResults& results, const TDataAssociationMethod method = assocJCBB, const TDataAssociationMetric metric = metricMaha, const double chi2quantile = 0.99, const bool DAT_ASOC_USE_KDTREE = true, const std::vector<prediction_index_t>& predictions_IDs = std::vector<prediction_index_t>(), const TDataAssociationMetric compatibilityTestMetric = metricMaha, const double log_ML_compat_test_threshold = 0.0 )
Computes the data-association between the prediction of a set of landmarks and their observations, all of them with covariance matrices - Generic version with NO prediction cross-covariances.
Implemented methods include (see TDataAssociation)
NN: Nearest-neighbor
JCBB: Joint Compatibility Branch & Bound [4]
With both a Mahalanobis-distance or Matching-likelihood metric. For a comparison of both methods, see paper [1] :
Parameters:
Z_observations_mean |
[IN] An MxO matrix with the M observations, each row containing the observation “mean”. |
Y_predictions_mean |
[IN] An NxO matrix with the N predictions, each row containing the mean of one prediction. |
Y_predictions_cov |
[IN] An N*OxO matrix: A vertical stack of N covariance matrix, one for each of the N prediction. |
results |
[OUT] The output data association hypothesis, and other useful information. |
method |
[IN, optional] The selected method to make the associations. |
chi2quantile |
[IN, optional] The threshold for considering a match between two close Gaussians for two landmarks, in the range [0,1]. It is used to call mrpt::math::chi2inv |
use_kd_tree |
[IN, optional] Build a KD-tree to speed-up the evaluation of individual compatibility (IC). It’s perhaps more efficient to disable it for a small number of features. (default=true). |
predictions_IDs |
[IN, optional] (default:none) An N-vector. If provided, the resulting associations in “results.associations” will not contain prediction indices “i”, but “predictions_IDs[i]”. |
See also:
data_association_full_covariance, data_association_independent_2d_points, data_association_independent_3d_points