Detailed Description
The class for storing individual "beacon landmarks" under a variety of 3D position PDF distributions.
This class is used for storage within the class CBeaconMap. The class implements the same methods than the interface "CPointPDF", and invoking them actually becomes a mapping into the methods of the current PDF representation of the beacon, selectable by means of "m_typePDF"
- See also
- CBeaconMap, CPointPDFSOG
#include <mrpt/maps/CBeacon.h>
Public Types | |
| enum | TTypePDF { pdfMonteCarlo = 0, pdfGauss, pdfSOG } |
| See m_typePDF. More... | |
| using | TBeaconID = int64_t |
| The type for the IDs of landmarks. More... | |
| enum | { is_3D_val = 1 } |
| enum | { is_PDF_val = 1 } |
| using | type_value = CPoint3D |
| The type of the state the PDF represents. More... | |
| using | self_t = CProbabilityDensityFunction< CPoint3D, STATE_LEN > |
Public Member Functions | |
| void * | operator new (size_t size) |
| void * | operator new[] (size_t size) |
| void | operator delete (void *ptr) noexcept |
| void | operator delete[] (void *ptr) noexcept |
| void | operator delete (void *memory, void *ptr) noexcept |
| void * | operator new (size_t size, const std::nothrow_t &) noexcept |
| void | operator delete (void *ptr, const std::nothrow_t &) noexcept |
| void | getMean (mrpt::poses::CPoint3D &mean_point) const override |
| Returns an estimate of the point, (the mean, or mathematical expectation of the PDF). More... | |
| void | getCovarianceAndMean (mrpt::math::CMatrixDouble33 &cov, mrpt::poses::CPoint3D &mean_point) const override |
| Returns an estimate of the point covariance matrix (3x3 cov matrix) and the mean, both at once. More... | |
| void | copyFrom (const mrpt::poses::CPointPDF &o) override |
| Copy operator, translating if necesary (for example, between particles and gaussian representations) More... | |
| bool | saveToTextFile (const std::string &file) const override |
| Save PDF's particles to a text file. More... | |
| void | changeCoordinatesReference (const mrpt::poses::CPose3D &newReferenceBase) override |
| this = p (+) this. More... | |
| void | getAs3DObject (mrpt::opengl::CSetOfObjects::Ptr &outObj) const |
| Saves a 3D representation of the beacon into a given OpenGL scene. More... | |
| void | getAsMatlabDrawCommands (std::vector< std::string > &out_Str) const |
| Gets a set of MATLAB commands which draw the current state of the beacon: More... | |
| void | drawSingleSample (mrpt::poses::CPoint3D &outSample) const override |
| Draw a sample from the pdf. More... | |
| void | bayesianFusion (const CPointPDF &p1, const CPointPDF &p2, const double minMahalanobisDistToDrop=0) override |
| Bayesian fusion of two point distributions (product of two distributions->new distribution), then save the result in this object (WARNING: See implementing classes to see classes that can and cannot be mixtured!) More... | |
| void | generateObservationModelDistribution (const float &sensedRange, mrpt::poses::CPointPDFSOG &outPDF, const CBeaconMap *myBeaconMap, const mrpt::poses::CPoint3D &sensorPntOnRobot, const mrpt::poses::CPoint3D ¢erPoint=mrpt::poses::CPoint3D(0, 0, 0), const float &maxDistanceFromCenter=0) const |
| Compute the observation model p(z_t|x_t) for a given observation (range value), and return it as an approximate SOG. More... | |
| virtual void | bayesianFusion (const CPointPDF &p1, const CPointPDF &p2, const double minMahalanobisDistToDrop=0)=0 |
| Bayesian fusion of two point distributions (product of two distributions->new distribution), then save the result in this object (WARNING: See implementing classes to see classes that can and cannot be mixtured!) More... | |
| template<class OPENGL_SETOFOBJECTSPTR > | |
| void | getAs3DObject (OPENGL_SETOFOBJECTSPTR &out_obj) const |
| Returns a 3D representation of this PDF (it doesn't clear the current contents of out_obj, but append new OpenGL objects to that list) More... | |
| template<class OPENGL_SETOFOBJECTSPTR , class OPENGL_SETOFOBJECTS > | |
| OPENGL_SETOFOBJECTSPTR | getAs3DObject () const |
| Returns a 3D representation of this PDF. More... | |
| virtual mxArray * | writeToMatlab () const |
Introduces a pure virtual method responsible for writing to a mxArray Matlab object, typically a MATLAB struct whose contents are documented in each derived class. More... | |
| virtual void | getMean (CPoint3D &mean_point) const=0 |
| Returns the mean, or mathematical expectation of the probability density distribution (PDF). More... | |
| virtual void | getCovarianceAndMean (mrpt::math::CMatrixFixedNumeric< double, STATE_LEN, STATE_LEN > &cov, CPoint3D &mean_point) const=0 |
| Returns an estimate of the pose covariance matrix (STATE_LENxSTATE_LEN cov matrix) and the mean, both at once. More... | |
| void | getCovarianceDynAndMean (mrpt::math::CMatrixDouble &cov, CPoint3D &mean_point) const |
| Returns an estimate of the pose covariance matrix (STATE_LENxSTATE_LEN cov matrix) and the mean, both at once. More... | |
| CPoint3D | getMeanVal () const |
| Returns the mean, or mathematical expectation of the probability density distribution (PDF). More... | |
| void | getCovariance (mrpt::math::CMatrixDouble &cov) const |
| Returns the estimate of the covariance matrix (STATE_LEN x STATE_LEN covariance matrix) More... | |
| void | getCovariance (mrpt::math::CMatrixFixedNumeric< double, STATE_LEN, STATE_LEN > &cov) const |
| Returns the estimate of the covariance matrix (STATE_LEN x STATE_LEN covariance matrix) More... | |
| mrpt::math::CMatrixFixedNumeric< double, STATE_LEN, STATE_LEN > | getCovariance () const |
| Returns the estimate of the covariance matrix (STATE_LEN x STATE_LEN covariance matrix) More... | |
| virtual bool | isInfType () const |
| Returns whether the class instance holds the uncertainty in covariance or information form. More... | |
| virtual void | getInformationMatrix (mrpt::math::CMatrixFixedNumeric< double, STATE_LEN, STATE_LEN > &inf) const |
| Returns the information (inverse covariance) matrix (a STATE_LEN x STATE_LEN matrix) Unless reimplemented in derived classes, this method first reads the covariance, then invert it. More... | |
| virtual void | drawSingleSample (CPoint3D &outPart) const=0 |
| Draws a single sample from the distribution. More... | |
| virtual void | drawManySamples (size_t N, std::vector< mrpt::math::CVectorDouble > &outSamples) const |
| Draws a number of samples from the distribution, and saves as a list of 1xSTATE_LEN vectors, where each row contains a (x,y,z,yaw,pitch,roll) datum. More... | |
| double | getCovarianceEntropy () const |
| Compute the entropy of the estimated covariance matrix. More... | |
RTTI classes and functions for polymorphic hierarchies | |
| mrpt::rtti::CObject::Ptr | duplicateGetSmartPtr () const |
| Returns a copy of the object, indepently of its class, as a smart pointer (the newly created object will exist as long as any copy of this smart pointer). More... | |
Static Public Member Functions | |
| static void * | operator new (size_t size, void *ptr) |
| static void | generateRingSOG (const float &sensedRange, mrpt::poses::CPointPDFSOG &outPDF, const CBeaconMap *myBeaconMap, const mrpt::poses::CPoint3D &sensorPnt, const mrpt::math::CMatrixDouble33 *covarianceCompositionToAdd=nullptr, bool clearPreviousContentsOutPDF=true, const mrpt::poses::CPoint3D ¢erPoint=mrpt::poses::CPoint3D(0, 0, 0), const float &maxDistanceFromCenter=0) |
| This static method returns a SOG with ring-shape (or as a 3D sphere) that can be used to initialize a beacon if observed the first time. More... | |
| static constexpr bool | is_3D () |
| static constexpr bool | is_PDF () |
Public Attributes | |
| TTypePDF | m_typePDF {pdfGauss} |
| Which one of the different 3D point PDF is currently used in this object: montecarlo, gaussian, or a sum of gaussians. More... | |
| mrpt::poses::CPointPDFParticles | m_locationMC {1} |
| The individual PDF, if m_typePDF=pdfMonteCarlo (publicly accesible for ease of use, but the CPointPDF interface is also implemented in CBeacon). More... | |
| mrpt::poses::CPointPDFGaussian | m_locationGauss |
| The individual PDF, if m_typePDF=pdfGauss (publicly accesible for ease of use, but the CPointPDF interface is also implemented in CBeacon). More... | |
| mrpt::poses::CPointPDFSOG | m_locationSOG {1} |
| The individual PDF, if m_typePDF=pdfSOG (publicly accesible for ease of use, but the CPointPDF interface is also implemented in CBeacon). More... | |
| TBeaconID | m_ID {INVALID_BEACON_ID} |
| An ID for the landmark (see details next...) This ID was introduced in the version 3 of this class (21/NOV/2006), and its aim is to provide a way for easily establishing correspondences between landmarks detected in sequential image frames. More... | |
Static Public Attributes | |
| static constexpr size_t | state_length |
| The length of the variable, for example, 3 for a 3D point, 6 for a 3D pose (x y z yaw pitch roll). More... | |
Protected Member Functions | |
CSerializable virtual methods | |
| uint8_t | serializeGetVersion () const override |
| Must return the current versioning number of the object. More... | |
| void | serializeTo (mrpt::serialization::CArchive &out) const override |
| Pure virtual method for writing (serializing) to an abstract archive. More... | |
| void | serializeFrom (mrpt::serialization::CArchive &in, uint8_t serial_version) override |
| Pure virtual method for reading (deserializing) from an abstract archive. More... | |
RTTI stuff | |
| using | Ptr = std::shared_ptr< CBeacon > |
| using | ConstPtr = std::shared_ptr< const CBeacon > |
| using | UniquePtr = std::unique_ptr< CBeacon > |
| using | ConstUniquePtr = std::unique_ptr< const CBeacon > |
| static mrpt::rtti::CLASSINIT | _init_CBeacon |
| static const mrpt::rtti::TRuntimeClassId | runtimeClassId |
| static constexpr const char * | className = "CBeacon" |
| static const mrpt::rtti::TRuntimeClassId * | _GetBaseClass () |
| static constexpr auto | getClassName () |
| static const mrpt::rtti::TRuntimeClassId & | GetRuntimeClassIdStatic () |
| static mrpt::rtti::CObject * | CreateObject () |
| template<typename... Args> | |
| static Ptr | Create (Args &&... args) |
| template<typename... Args> | |
| static UniquePtr | CreateUnique (Args &&... args) |
| virtual const mrpt::rtti::TRuntimeClassId * | GetRuntimeClass () const override |
| Returns information about the class of an object in runtime. More... | |
| virtual mrpt::rtti::CObject * | clone () const override |
| Returns a deep copy (clone) of the object, indepently of its class. More... | |
Member Typedef Documentation
◆ ConstPtr
| using mrpt::maps::CBeacon::ConstPtr = std::shared_ptr<const CBeacon > |
◆ ConstUniquePtr
| using mrpt::maps::CBeacon::ConstUniquePtr = std::unique_ptr<const CBeacon > |
◆ Ptr
| using mrpt::maps::CBeacon::Ptr = std::shared_ptr< CBeacon > |
◆ self_t
|
inherited |
Definition at line 34 of file CProbabilityDensityFunction.h.
◆ TBeaconID
◆ type_value
|
inherited |
The type of the state the PDF represents.
Definition at line 33 of file CProbabilityDensityFunction.h.
◆ UniquePtr
| using mrpt::maps::CBeacon::UniquePtr = std::unique_ptr< CBeacon > |
Member Enumeration Documentation
◆ anonymous enum
|
inherited |
| Enumerator | |
|---|---|
| is_3D_val | |
Definition at line 65 of file CPointPDF.h.
◆ anonymous enum
|
inherited |
| Enumerator | |
|---|---|
| is_PDF_val | |
Definition at line 70 of file CPointPDF.h.
◆ TTypePDF
Member Function Documentation
◆ _GetBaseClass()
|
staticprotected |
◆ bayesianFusion() [1/2]
|
pure virtualinherited |
Bayesian fusion of two point distributions (product of two distributions->new distribution), then save the result in this object (WARNING: See implementing classes to see classes that can and cannot be mixtured!)
- Parameters
-
p1 The first distribution to fuse p2 The second distribution to fuse minMahalanobisDistToDrop If set to different of 0, the result of very separate Gaussian modes (that will result in negligible components) in SOGs will be dropped to reduce the number of modes in the output.
Implemented in mrpt::poses::CPointPDFSOG, mrpt::poses::CPointPDFGaussian, and mrpt::poses::CPointPDFParticles.
◆ bayesianFusion() [2/2]
|
override |
Bayesian fusion of two point distributions (product of two distributions->new distribution), then save the result in this object (WARNING: See implementing classes to see classes that can and cannot be mixtured!)
- Parameters
-
p1 The first distribution to fuse p2 The second distribution to fuse minMahalanobisDistToDrop If set to different of 0, the result of very separate Gaussian modes (that will result in negligible components) in SOGs will be dropped to reduce the number of modes in the output.
Definition at line 108 of file CBeacon.cpp.
References MRPT_END, MRPT_START, and THROW_EXCEPTION.
◆ changeCoordinatesReference()
|
overridevirtual |
this = p (+) this.
This can be used to convert a PDF from local coordinates to global, providing the point (newReferenceBase) from which "to project" the current pdf. Result PDF substituted the currently stored one in the object.
Implements mrpt::poses::CPointPDF.
Definition at line 202 of file CBeacon.cpp.
References MRPT_END, MRPT_START, and THROW_EXCEPTION.
◆ clone()
|
overridevirtual |
Returns a deep copy (clone) of the object, indepently of its class.
Implements mrpt::rtti::CObject.
◆ copyFrom()
|
overridevirtual |
Copy operator, translating if necesary (for example, between particles and gaussian representations)
Implements mrpt::poses::CPointPDF.
Definition at line 156 of file CBeacon.cpp.
References MRPT_END, MRPT_START, and THROW_EXCEPTION.
◆ Create()
|
inlinestatic |
◆ CreateObject()
|
static |
◆ CreateUnique()
|
inlinestatic |
◆ drawManySamples()
|
inlinevirtualinherited |
Draws a number of samples from the distribution, and saves as a list of 1xSTATE_LEN vectors, where each row contains a (x,y,z,yaw,pitch,roll) datum.
This base method just call N times to drawSingleSample, but derived classes should implemented optimized method for each particular PDF.
Definition at line 152 of file CProbabilityDensityFunction.h.
◆ drawSingleSample() [1/2]
|
override |
Draw a sample from the pdf.
Definition at line 133 of file CBeacon.cpp.
References MRPT_END, MRPT_START, and THROW_EXCEPTION.
◆ drawSingleSample() [2/2]
|
pure virtualinherited |
Draws a single sample from the distribution.
◆ duplicateGetSmartPtr()
|
inlineinherited |
Returns a copy of the object, indepently of its class, as a smart pointer (the newly created object will exist as long as any copy of this smart pointer).
Definition at line 168 of file CObject.h.
References mrpt::rtti::CObject::clone().
Referenced by mrpt::obs::CRawlog::addActions(), and mrpt::obs::CRawlog::addObservations().
◆ generateObservationModelDistribution()
| void CBeacon::generateObservationModelDistribution | ( | const float & | sensedRange, |
| mrpt::poses::CPointPDFSOG & | outPDF, | ||
| const CBeaconMap * | myBeaconMap, | ||
| const mrpt::poses::CPoint3D & | sensorPntOnRobot, | ||
| const mrpt::poses::CPoint3D & | centerPoint = mrpt::poses::CPoint3D(0, 0, 0), |
||
| const float & | maxDistanceFromCenter = 0 |
||
| ) | const |
Compute the observation model p(z_t|x_t) for a given observation (range value), and return it as an approximate SOG.
Note that if the beacon is a SOG itself, the number of gaussian modes will be square. As a speed-up, if a "center point"+"maxDistanceFromCenter" is supplied (maxDistanceFromCenter!=0), those modes farther than this sphere will be discarded. Parameters such as the stdSigma of the sensor are gathered from "myBeaconMap" The result is one "ring" for each Gaussian mode that represent the beacon position in this object. The position of the sensor on the robot is used to shift the resulting densities such as they represent the position of the robot, not the sensor.
Definition at line 402 of file CBeacon.cpp.
References ASSERT_, mrpt::poses::CPointPDFSOG::clear(), generateRingSOG(), mrpt::poses::CPointPDFSOG::get(), mrpt::poses::CPointPDFSOG::TGaussianMode::log_w, MRPT_END, MRPT_START, mrpt::poses::CPointPDFSOG::push_back(), mrpt::poses::CPointPDFSOG::size(), mrpt::poses::CPointPDFSOG::TGaussianMode::val, val, mrpt::poses::CPoseOrPoint< DERIVEDCLASS >::x(), and mrpt::poses::CPoseOrPoint< DERIVEDCLASS >::y().
◆ generateRingSOG()
|
static |
This static method returns a SOG with ring-shape (or as a 3D sphere) that can be used to initialize a beacon if observed the first time.
sensorPnt is the center of the ring/sphere, i.e. the absolute position of the range sensor. If clearPreviousContentsOutPDF=false, the SOG modes will be added to the current contents of outPDF If the 3x3 matrix covarianceCompositionToAdd is provided, it will be add to every Gaussian (to model the composition of uncertainty).
Definition at line 464 of file CBeacon.cpp.
References ASSERT_, mrpt::poses::CPointPDFGaussian::cov, mrpt::DEG2RAD(), dir, mrpt::math::generateAxisBaseFromDirection(), mrpt::poses::CPointPDFSOG::get(), mrpt::maps::CBeaconMap::insertionOptions, mrpt::maps::CBeaconMap::likelihoodOptions, mrpt::poses::CPointPDFSOG::TGaussianMode::log_w, M_2PI, M_2PIf, mrpt::maps::CBeaconMap::TInsertionOptions::maxElevation_deg, mrpt::poses::CPointPDFGaussian::mean, mrpt::maps::CBeaconMap::TInsertionOptions::minElevation_deg, MRPT_END, MRPT_START, R, mrpt::maps::CBeaconMap::TLikelihoodOptions::rangeStd, mrpt::poses::CPointPDFSOG::resize(), mrpt::poses::CPointPDFSOG::size(), mrpt::maps::CBeaconMap::TInsertionOptions::SOG_maxDistBetweenGaussians, mrpt::maps::CBeaconMap::TInsertionOptions::SOG_separationConstant, mrpt::square(), mrpt::poses::CPointPDFSOG::TGaussianMode::val, mrpt::poses::CPoseOrPoint< DERIVEDCLASS >::x(), and mrpt::poses::CPoseOrPoint< DERIVEDCLASS >::y().
Referenced by generateObservationModelDistribution(), and mrpt::maps::CBeaconMap::internal_insertObservation().
◆ getAs3DObject() [1/3]
|
inlineinherited |
Returns a 3D representation of this PDF (it doesn't clear the current contents of out_obj, but append new OpenGL objects to that list)
- Note
- Needs the mrpt-opengl library, and using mrpt::opengl::CSetOfObjects::Ptr as template argument.
- By default, ellipsoids for the confidence intervals of "q=3" are drawn; for more mathematical details, see CGeneralizedEllipsoidTemplate::setQuantiles()
Definition at line 84 of file CPointPDF.h.
References mrpt::opengl::posePDF2opengl().
◆ getAs3DObject() [2/3]
|
inlineinherited |
Returns a 3D representation of this PDF.
- Note
- Needs the mrpt-opengl library, and using mrpt::opengl::CSetOfObjects::Ptr as template argument.
Definition at line 95 of file CPointPDF.h.
References mrpt::opengl::posePDF2opengl().
◆ getAs3DObject() [3/3]
| void CBeacon::getAs3DObject | ( | mrpt::opengl::CSetOfObjects::Ptr & | outObj | ) | const |
Saves a 3D representation of the beacon into a given OpenGL scene.
Definition at line 225 of file CBeacon.cpp.
References mrpt::format(), MRPT_END, MRPT_START, THROW_EXCEPTION, mrpt::poses::CPoseOrPoint< DERIVEDCLASS >::x(), and mrpt::poses::CPoseOrPoint< DERIVEDCLASS >::y().
◆ getAsMatlabDrawCommands()
| void CBeacon::getAsMatlabDrawCommands | ( | std::vector< std::string > & | out_Str | ) | const |
Gets a set of MATLAB commands which draw the current state of the beacon:
Definition at line 293 of file CBeacon.cpp.
References MRPT_END, MRPT_START, mrpt::system::os::sprintf(), THROW_EXCEPTION, val, mrpt::poses::CPoseOrPoint< DERIVEDCLASS >::x(), and mrpt::poses::CPoseOrPoint< DERIVEDCLASS >::y().
◆ getClassName()
|
inlinestatic |
◆ getCovariance() [1/3]
|
inlineinherited |
Returns the estimate of the covariance matrix (STATE_LEN x STATE_LEN covariance matrix)
- See also
- getMean, getCovarianceAndMean, getInformationMatrix
Definition at line 78 of file CProbabilityDensityFunction.h.
◆ getCovariance() [2/3]
|
inlineinherited |
Returns the estimate of the covariance matrix (STATE_LEN x STATE_LEN covariance matrix)
- See also
- getMean, getCovarianceAndMean, getInformationMatrix
Definition at line 88 of file CProbabilityDensityFunction.h.
◆ getCovariance() [3/3]
|
inlineinherited |
Returns the estimate of the covariance matrix (STATE_LEN x STATE_LEN covariance matrix)
- See also
- getMean, getInformationMatrix
Definition at line 101 of file CProbabilityDensityFunction.h.
◆ getCovarianceAndMean() [1/2]
|
pure virtualinherited |
Returns an estimate of the pose covariance matrix (STATE_LENxSTATE_LEN cov matrix) and the mean, both at once.
- See also
- getMean, getInformationMatrix
◆ getCovarianceAndMean() [2/2]
|
override |
Returns an estimate of the point covariance matrix (3x3 cov matrix) and the mean, both at once.
- See also
- getMean
Definition at line 85 of file CBeacon.cpp.
References MRPT_END, MRPT_START, and THROW_EXCEPTION.
◆ getCovarianceDynAndMean()
|
inlineinherited |
Returns an estimate of the pose covariance matrix (STATE_LENxSTATE_LEN cov matrix) and the mean, both at once.
- See also
- getMean, getInformationMatrix
Definition at line 54 of file CProbabilityDensityFunction.h.
◆ getCovarianceEntropy()
|
inlineinherited |
Compute the entropy of the estimated covariance matrix.
Definition at line 168 of file CProbabilityDensityFunction.h.
◆ getInformationMatrix()
|
inlinevirtualinherited |
Returns the information (inverse covariance) matrix (a STATE_LEN x STATE_LEN matrix) Unless reimplemented in derived classes, this method first reads the covariance, then invert it.
- See also
- getMean, getCovarianceAndMean
Definition at line 124 of file CProbabilityDensityFunction.h.
◆ getMean() [1/2]
|
pure virtualinherited |
Returns the mean, or mathematical expectation of the probability density distribution (PDF).
- See also
- getCovarianceAndMean, getInformationMatrix
◆ getMean() [2/2]
|
override |
Returns an estimate of the point, (the mean, or mathematical expectation of the PDF).
- See also
- getCovariance
Definition at line 62 of file CBeacon.cpp.
References MRPT_END, MRPT_START, and THROW_EXCEPTION.
◆ getMeanVal()
|
inlineinherited |
Returns the mean, or mathematical expectation of the probability density distribution (PDF).
- See also
- getCovariance, getInformationMatrix
Definition at line 67 of file CProbabilityDensityFunction.h.
◆ GetRuntimeClass()
|
overridevirtual |
Returns information about the class of an object in runtime.
Reimplemented from mrpt::poses::CPointPDF.
◆ GetRuntimeClassIdStatic()
|
static |
◆ is_3D()
|
inlinestaticinherited |
Definition at line 69 of file CPointPDF.h.
References mrpt::poses::CPointPDF::is_3D_val.
◆ is_PDF()
|
inlinestaticinherited |
Definition at line 74 of file CPointPDF.h.
References mrpt::poses::CPointPDF::is_PDF_val.
◆ isInfType()
|
inlinevirtualinherited |
Returns whether the class instance holds the uncertainty in covariance or information form.
- Note
- By default this is going to be covariance form. *Inf classes (e.g. CPosePDFGaussianInf) store it in information form.
- See also
- mrpt::traits::is_inf_type
Definition at line 117 of file CProbabilityDensityFunction.h.
◆ operator delete() [1/3]
◆ operator delete() [2/3]
◆ operator delete() [3/3]
◆ operator delete[]()
◆ operator new() [1/3]
|
inline |
◆ operator new() [2/3]
|
inlinenoexcept |
◆ operator new() [3/3]
◆ operator new[]()
|
inline |
◆ saveToTextFile()
|
overridevirtual |
Save PDF's particles to a text file.
See derived classes for more information about the format of generated files
Implements mrpt::math::CProbabilityDensityFunction< CPoint3D, 3 >.
Definition at line 179 of file CBeacon.cpp.
References MRPT_END, MRPT_START, and THROW_EXCEPTION.
◆ serializeFrom()
|
overrideprotectedvirtual |
Pure virtual method for reading (deserializing) from an abstract archive.
Users don't call this method directly. Instead, use stream >> object;.
- Parameters
-
in The input binary stream where the object data must read from. version The version of the object stored in the stream: use this version number in your code to know how to read the incoming data.
- Exceptions
-
std::exception On any I/O error
Implements mrpt::serialization::CSerializable.
Definition at line 42 of file CBeacon.cpp.
References MRPT_THROW_UNKNOWN_SERIALIZATION_VERSION.
◆ serializeGetVersion()
|
overrideprotectedvirtual |
Must return the current versioning number of the object.
Start in zero for new classes, and increments each time there is a change in the stored format.
Implements mrpt::serialization::CSerializable.
Definition at line 34 of file CBeacon.cpp.
◆ serializeTo()
|
overrideprotectedvirtual |
Pure virtual method for writing (serializing) to an abstract archive.
Users don't call this method directly. Instead, use stream << object;.
- Exceptions
-
std::exception On any I/O error
Implements mrpt::serialization::CSerializable.
Definition at line 35 of file CBeacon.cpp.
◆ writeToMatlab()
|
inlinevirtualinherited |
Introduces a pure virtual method responsible for writing to a mxArray Matlab object, typically a MATLAB struct whose contents are documented in each derived class.
- Returns
- A new
mxArray(caller is responsible of memory freeing) or nullptr is class does not support conversion to MATLAB.
Definition at line 68 of file CSerializable.h.
Member Data Documentation
◆ _init_CBeacon
|
staticprotected |
◆ className
|
static |
◆ m_ID
| TBeaconID mrpt::maps::CBeacon::m_ID {INVALID_BEACON_ID} |
An ID for the landmark (see details next...) This ID was introduced in the version 3 of this class (21/NOV/2006), and its aim is to provide a way for easily establishing correspondences between landmarks detected in sequential image frames.
Thus, the management of this field should be:
- In 'servers' (classes/modules/... that detect landmarks from images): A different ID must be assigned to every landmark (e.g. a sequential counter), BUT only in the case of being sure of the correspondence of one landmark with another one in the past (e.g. tracking).
- In 'clients': This field can be ignored, but if it is used, the advantage is solving the correspondence between landmarks detected in consequentive instants of time: Two landmarks with the same ID correspond to the same physical feature, BUT it should not be expected the inverse to be always true.
Note that this field is never fill out automatically, it must be set by the programmer if used.
Definition at line 92 of file CBeacon.h.
Referenced by mrpt::maps::CBeaconMap::internal_insertObservation().
◆ m_locationGauss
| mrpt::poses::CPointPDFGaussian mrpt::maps::CBeacon::m_locationGauss |
The individual PDF, if m_typePDF=pdfGauss (publicly accesible for ease of use, but the CPointPDF interface is also implemented in CBeacon).
Definition at line 66 of file CBeacon.h.
Referenced by mrpt::maps::CBeaconMap::internal_computeObservationLikelihood(), and mrpt::maps::CBeaconMap::internal_insertObservation().
◆ m_locationMC
| mrpt::poses::CPointPDFParticles mrpt::maps::CBeacon::m_locationMC {1} |
The individual PDF, if m_typePDF=pdfMonteCarlo (publicly accesible for ease of use, but the CPointPDF interface is also implemented in CBeacon).
Definition at line 63 of file CBeacon.h.
Referenced by mrpt::maps::CBeaconMap::internal_computeObservationLikelihood(), and mrpt::maps::CBeaconMap::internal_insertObservation().
◆ m_locationSOG
| mrpt::poses::CPointPDFSOG mrpt::maps::CBeacon::m_locationSOG {1} |
The individual PDF, if m_typePDF=pdfSOG (publicly accesible for ease of use, but the CPointPDF interface is also implemented in CBeacon).
Definition at line 69 of file CBeacon.h.
Referenced by mrpt::maps::CBeaconMap::internal_computeObservationLikelihood(), and mrpt::maps::CBeaconMap::internal_insertObservation().
◆ m_typePDF
Which one of the different 3D point PDF is currently used in this object: montecarlo, gaussian, or a sum of gaussians.
- See also
- m_location
Definition at line 58 of file CBeacon.h.
Referenced by mrpt::maps::CBeaconMap::internal_computeObservationLikelihood(), and mrpt::maps::CBeaconMap::internal_insertObservation().
◆ runtimeClassId
|
staticprotected |
◆ state_length
|
staticinherited |
The length of the variable, for example, 3 for a 3D point, 6 for a 3D pose (x y z yaw pitch roll).
Definition at line 31 of file CProbabilityDensityFunction.h.
Referenced by mrpt::poses::CPointPDFGaussian::productIntegralWith(), and mrpt::poses::CPointPDFGaussian::productIntegralWith2D().