template class mrpt::graphslam::deciders::CEmptyNRD
Empty Node Registration Decider.
Handy when you are testing other parts of the application but not the specific registration procedure
#include <mrpt/graphslam/NRD/CEmptyNRD.h> template <class GRAPH_T = typename mrpt::graphs::CNetworkOfPoses2DInf> class CEmptyNRD: public mrpt::graphslam::deciders::CNodeRegistrationDecider { public: // typedefs typedef mrpt::graphslam::CRegistrationDeciderOrOptimizer<GRAPH_T> parent_t; typedef typename GRAPH_T::constraint_t constraint_t; // construction CEmptyNRD(); // methods virtual bool updateState(mrpt::obs::CActionCollection::Ptr action, mrpt::obs::CSensoryFrame::Ptr observations, mrpt::obs::CObservation::Ptr observation); virtual global_pose_t getCurrentRobotPosEstimation() const; virtual void getDescriptiveReport(std::string* report_str) const; };
Inherited Members
public: // typedefs typedef typename GRAPH_T::constraint_t::type_value pose_t; typedef typename GRAPH_T::global_pose_t global_pose_t; typedef mrpt::math::CMatrixFixed<double, constraint_t::state_length, constraint_t::state_length> inf_mat_t; // structs struct TMsg; // methods virtual void setClassName(const std::string& name); bool isMultiRobotSlamClass(); std::string getClassName() const;
Typedefs
typedef mrpt::graphslam::CRegistrationDeciderOrOptimizer<GRAPH_T> parent_t
Handy typedefs.
Parent of current class
typedef typename GRAPH_T::constraint_t constraint_t
type of graph constraints
Methods
virtual bool updateState(mrpt::obs::CActionCollection::Ptr action, mrpt::obs::CSensoryFrame::Ptr observations, mrpt::obs::CObservation::Ptr observation)
Generic method for fetching the incremental action-observations (or observation-only) measurements.
Returns:
True if operation was successful. Criteria for Success depend on the decider/optimizer implementing this method
virtual global_pose_t getCurrentRobotPosEstimation() const
Getter method for fetching the currently estimated robot position.
In single-robot situations this is most likely going to be the last registered node position + an position/uncertainty increment from that position
virtual void getDescriptiveReport(std::string* report_str) const
Fill the provided string with a detailed report of the decider/optimizer state.
Report should include (part of) the following:
Timing of important methods
Properties fo class at the current time
Logging of commands until current time