Visual Servoing Platform  version 3.4.0

#include <vpKltOpencv.h>

Public Member Functions

 vpKltOpencv ()
 
 vpKltOpencv (const vpKltOpencv &copy)
 
virtual ~vpKltOpencv ()
 
void addFeature (const float &x, const float &y)
 
void addFeature (const long &id, const float &x, const float &y)
 
void addFeature (const cv::Point2f &f)
 
void display (const vpImage< unsigned char > &I, const vpColor &color=vpColor::red, unsigned int thickness=1)
 
int getBlockSize () const
 
void getFeature (const int &index, long &id, float &x, float &y) const
 
std::vector< cv::Point2f > getFeatures () const
 
std::vector< long > getFeaturesId () const
 
double getHarrisFreeParameter () const
 
int getMaxFeatures () const
 
double getMinDistance () const
 
int getNbFeatures () const
 
int getNbPrevFeatures () const
 
std::vector< cv::Point2f > getPrevFeatures () const
 
int getPyramidLevels () const
 
double getQuality () const
 
int getWindowSize () const
 
void initTracking (const cv::Mat &I, const cv::Mat &mask=cv::Mat())
 
void initTracking (const cv::Mat &I, const std::vector< cv::Point2f > &pts)
 
void initTracking (const cv::Mat &I, const std::vector< cv::Point2f > &pts, const std::vector< long > &ids)
 
vpKltOpencvoperator= (const vpKltOpencv &copy)
 
void track (const cv::Mat &I)
 
void setBlockSize (int blockSize)
 
void setHarrisFreeParameter (double harris_k)
 
void setInitialGuess (const std::vector< cv::Point2f > &guess_pts)
 
void setInitialGuess (const std::vector< cv::Point2f > &init_pts, const std::vector< cv::Point2f > &guess_pts, const std::vector< long > &fid)
 
void setMaxFeatures (int maxCount)
 
void setMinDistance (double minDistance)
 
void setMinEigThreshold (double minEigThreshold)
 
void setPyramidLevels (int pyrMaxLevel)
 
void setQuality (double qualityLevel)
 
void setTrackerId (int tid)
 
void setUseHarris (int useHarrisDetector)
 
void setWindowSize (int winSize)
 
void suppressFeature (const int &index)
 

Static Public Member Functions

static void display (const vpImage< unsigned char > &I, const std::vector< cv::Point2f > &features, const vpColor &color=vpColor::green, unsigned int thickness=1)
 
static void display (const vpImage< vpRGBa > &I, const std::vector< cv::Point2f > &features, const vpColor &color=vpColor::green, unsigned int thickness=1)
 
static void display (const vpImage< unsigned char > &I, const std::vector< cv::Point2f > &features, const std::vector< long > &featuresid, const vpColor &color=vpColor::green, unsigned int thickness=1)
 
static void display (const vpImage< vpRGBa > &I, const std::vector< cv::Point2f > &features, const std::vector< long > &featuresid, const vpColor &color=vpColor::green, unsigned int thickness=1)
 

Protected Attributes

cv::Mat m_gray
 
cv::Mat m_prevGray
 
std::vector< cv::Point2f > m_points [2]
 
std::vector< long > m_points_id
 
int m_maxCount
 
cv::TermCriteria m_termcrit
 
int m_winSize
 
double m_qualityLevel
 
double m_minDistance
 
double m_minEigThreshold
 
double m_harris_k
 
int m_blockSize
 
int m_useHarrisDetector
 
int m_pyrMaxLevel
 
long m_next_points_id
 
bool m_initial_guess
 

Detailed Description

Wrapper for the KLT (Kanade-Lucas-Tomasi) feature tracker implemented in OpenCV. Thus to enable this class OpenCV should be installed. Installation instructions are provided here https://visp.inria.fr/3rd_opencv.

The following example available in tutorial-klt-tracker.cpp shows how to use the main functions of the class.

#include <visp3/core/vpImageConvert.h>
#include <visp3/gui/vpDisplayOpenCV.h>
#include <visp3/io/vpVideoReader.h>
#include <visp3/klt/vpKltOpencv.h>
int main(int argc, const char *argv[])
{
#ifdef VISP_HAVE_OPENCV
try {
std::string opt_videoname = "video-postcard.mp4";
bool opt_init_by_click = false;
unsigned int opt_subsample = 1;
for (int i = 0; i < argc; i++) {
if (std::string(argv[i]) == "--videoname")
opt_videoname = std::string(argv[i + 1]);
else if (std::string(argv[i]) == "--init-by-click")
opt_init_by_click = true;
else if (std::string(argv[i]) == "--subsample")
opt_subsample = static_cast<unsigned int>(std::atoi(argv[i + 1]));
else if (std::string(argv[i]) == "--help" || std::string(argv[i]) == "-h") {
std::cout << "Usage: " << argv[0]
<< " [--videoname <video name>] [--subsample <scale factor>] [--init-by-click]"
<< " [--help] [-h]" << std::endl;
return 0;
}
}
vpVideoReader reader;
reader.setFileName(opt_videoname);
reader.acquire(Iacq);
Iacq.subsample(opt_subsample, opt_subsample, I);
#if (VISP_HAVE_OPENCV_VERSION < 0x020408)
IplImage *cvI = NULL;
#else
cv::Mat cvI;
#endif
vpDisplayOpenCV d(I, 0, 0, "Klt tracking");
vpKltOpencv tracker;
tracker.setMaxFeatures(200);
tracker.setWindowSize(10);
tracker.setQuality(0.01);
tracker.setMinDistance(15);
tracker.setHarrisFreeParameter(0.04);
tracker.setBlockSize(9);
tracker.setUseHarris(1);
tracker.setPyramidLevels(3);
// Initialise the tracking
if (opt_init_by_click) {
#if (VISP_HAVE_OPENCV_VERSION < 0x020408)
std::vector<CvPoint2D32f> feature;
#else
std::vector<cv::Point2f> feature;
#endif
do {
vpDisplay::displayText(I, 10, 10, "Left click to select a point, right to start tracking", vpColor::red);
if (vpDisplay::getClick(I, ip, button, false)) {
if (button == vpMouseButton::button1) {
feature.push_back(cv::Point2f((float)ip.get_u(), (float)ip.get_v()));
}
}
} while (button != vpMouseButton::button3);
#if (VISP_HAVE_OPENCV_VERSION < 0x020408)
tracker.initTracking(cvI, &feature[0], feature.size());
#else
tracker.initTracking(cvI, feature);
#endif
} else {
tracker.initTracking(cvI);
}
std::cout << "Tracker initialized with " << tracker.getNbFeatures() << " features" << std::endl;
while (!reader.end()) {
double t = vpTime::measureTimeMs();
reader.acquire(Iacq);
Iacq.subsample(opt_subsample, opt_subsample, I);
if (opt_init_by_click && reader.getFrameIndex() == reader.getFirstFrameIndex() + 20) {
#if (VISP_HAVE_OPENCV_VERSION < 0x020408)
std::vector<CvPoint2D32f> feature;
#else
std::vector<cv::Point2f> feature;
#endif
do {
vpDisplay::displayText(I, 10, 10, "Left click to select a point, right to start tracking", vpColor::red);
if (vpDisplay::getClick(I, ip, button, false)) {
if (button == vpMouseButton::button1) {
feature.push_back(cv::Point2f((float)ip.get_u(), (float)ip.get_v()));
}
}
} while (button != vpMouseButton::button3);
#if (VISP_HAVE_OPENCV_VERSION < 0x020408)
tracker.initTracking(cvI, &feature[0], feature.size());
#else
tracker.initTracking(cvI, feature);
#endif
}
tracker.track(cvI);
tracker.display(I, vpColor::red);
vpDisplay::displayText(I, 10, 10, "Click to quit", vpColor::red);
if (vpDisplay::getClick(I, false))
break;
if (! reader.isVideoFormat()) {
vpTime::wait(t, 40);
}
}
#if (VISP_HAVE_OPENCV_VERSION < 0x020408)
cvReleaseImage(&cvI);
#endif
return 0;
} catch (const vpException &e) {
std::cout << "Catch an exception: " << e << std::endl;
}
#else
(void)argc;
(void)argv;
#endif
}

A line by line explanation is provided in Tutorial: Keypoint tracking.

Examples:
mbtEdgeKltTracking.cpp, mbtGenericTracking.cpp, mbtGenericTracking2.cpp, mbtGenericTrackingDepth.cpp, mbtKltTracking.cpp, testGenericTracker.cpp, trackKltOpencv.cpp, tutorial-klt-tracker-live-v4l2.cpp, tutorial-klt-tracker-with-reinit.cpp, tutorial-klt-tracker.cpp, tutorial-mb-generic-tracker-apriltag-rs2.cpp, tutorial-mb-generic-tracker-apriltag-webcam.cpp, tutorial-mb-generic-tracker-full.cpp, tutorial-mb-generic-tracker-live.cpp, tutorial-mb-generic-tracker-stereo-mono.cpp, tutorial-mb-generic-tracker.cpp, tutorial-mb-hybrid-tracker.cpp, tutorial-mb-klt-tracker.cpp, tutorial-mb-tracker-full.cpp, and tutorial-mb-tracker.cpp.

Definition at line 78 of file vpKltOpencv.h.

Constructor & Destructor Documentation

vpKltOpencv::vpKltOpencv ( )

Default constructor.

Definition at line 61 of file vpKltOpencv.cpp.

References m_termcrit.

Referenced by suppressFeature().

vpKltOpencv::vpKltOpencv ( const vpKltOpencv copy)

Copy constructor.

Definition at line 72 of file vpKltOpencv.cpp.

vpKltOpencv::~vpKltOpencv ( )
virtual

Definition at line 106 of file vpKltOpencv.cpp.

Referenced by suppressFeature().

Member Function Documentation

void vpKltOpencv::addFeature ( const float &  x,
const float &  y 
)

Add a keypoint at the end of the feature list. The id of the feature is set to ensure that it is unique.

Parameters
x,y: Coordinates of the feature in the image.
Examples:
tutorial-klt-tracker-with-reinit.cpp.

Definition at line 517 of file vpKltOpencv.cpp.

References m_next_points_id, m_points, and m_points_id.

Referenced by suppressFeature().

void vpKltOpencv::addFeature ( const long &  id,
const float &  x,
const float &  y 
)

Add a keypoint at the end of the feature list.

Warning
This function doesn't ensure that the id of the feature is unique. You should rather use addFeature(const float &, const float &) or addFeature(const cv::Point2f &).
Parameters
id: Feature id. Should be unique
x,y: Coordinates of the feature in the image.

Definition at line 536 of file vpKltOpencv.cpp.

References m_next_points_id, m_points, and m_points_id.

void vpKltOpencv::addFeature ( const cv::Point2f &  f)

Add a keypoint at the end of the feature list. The id of the feature is set to ensure that it is unique.

Parameters
f: Coordinates of the feature in the image.

Definition at line 552 of file vpKltOpencv.cpp.

References m_next_points_id, m_points, and m_points_id.

void vpKltOpencv::display ( const vpImage< unsigned char > &  I,
const vpColor color = vpColor::red,
unsigned int  thickness = 1 
)

Display features position and id.

Parameters
I: Image used as background. Display should be initialized on it.
color: Color used to display the features.
thickness: Thickness of the drawings.
Examples:
trackKltOpencv.cpp, tutorial-klt-tracker-live-v4l2.cpp, tutorial-klt-tracker-with-reinit.cpp, and tutorial-klt-tracker.cpp.

Definition at line 217 of file vpKltOpencv.cpp.

References m_points, and m_points_id.

Referenced by suppressFeature().

void vpKltOpencv::display ( const vpImage< unsigned char > &  I,
const std::vector< cv::Point2f > &  features,
const vpColor color = vpColor::green,
unsigned int  thickness = 1 
)
static

Display features list.

Parameters
I: The image used as background.
features: Vector of features.
color: Color used to display the points.
thickness: Thickness of the points.

Definition at line 234 of file vpKltOpencv.cpp.

References vpDisplay::displayCross(), vpMath::round(), vpImagePoint::set_u(), and vpImagePoint::set_v().

void vpKltOpencv::display ( const vpImage< vpRGBa > &  I,
const std::vector< cv::Point2f > &  features,
const vpColor color = vpColor::green,
unsigned int  thickness = 1 
)
static

Display features list.

Parameters
I: The image used as background.
features: Vector of features.
color: Color used to display the points.
thickness: Thickness of the points.

Definition at line 257 of file vpKltOpencv.cpp.

References vpDisplay::displayCross(), vpMath::round(), vpImagePoint::set_u(), and vpImagePoint::set_v().

void vpKltOpencv::display ( const vpImage< unsigned char > &  I,
const std::vector< cv::Point2f > &  features,
const std::vector< long > &  featuresid,
const vpColor color = vpColor::green,
unsigned int  thickness = 1 
)
static

Display features list with ids.

Parameters
I: The image used as background.
features: Vector of features.
featuresid: Vector of ids corresponding to the features.
color: Color used to display the points.
thickness: Thickness of the points

Definition at line 282 of file vpKltOpencv.cpp.

References vpDisplay::displayCross(), vpDisplay::displayText(), vpMath::round(), vpImagePoint::set_u(), and vpImagePoint::set_v().

void vpKltOpencv::display ( const vpImage< vpRGBa > &  I,
const std::vector< cv::Point2f > &  features,
const std::vector< long > &  featuresid,
const vpColor color = vpColor::green,
unsigned int  thickness = 1 
)
static

Display features list with ids.

Parameters
I: The image used as background.
features: Vector of features.
featuresid: Vector of ids corresponding to the features.
color: Color used to display the points.
thickness: Thickness of the points

Definition at line 312 of file vpKltOpencv.cpp.

References vpDisplay::displayCross(), vpDisplay::displayText(), vpMath::round(), vpImagePoint::set_u(), and vpImagePoint::set_v().

int vpKltOpencv::getBlockSize ( ) const
inline

Get the size of the averaging block used to track the features.

Definition at line 102 of file vpKltOpencv.h.

Referenced by vpMbKltTracker::setKltOpencv().

void vpKltOpencv::getFeature ( const int &  index,
long &  id,
float &  x,
float &  y 
) const

Get the 'index'th feature image coordinates. Beware that getFeature(i,...) may not represent the same feature before and after a tracking iteration (if a feature is lost, features are shifted in the array).

Parameters
index: Index of feature.
id: id of the feature.
x: x coordinate.
y: y coordinate.
Examples:
tutorial-klt-tracker-with-reinit.cpp.

Definition at line 199 of file vpKltOpencv.cpp.

References vpException::badValue, m_points, and m_points_id.

Referenced by vpMbtDistanceKltCylinder::computeNbDetectedCurrent(), vpMbtDistanceKltPoints::computeNbDetectedCurrent(), vpMbKltTracker::getKltImagePoints(), vpMbKltTracker::getKltImagePointsWithId(), vpMbtDistanceKltPoints::init(), vpMbtDistanceKltCylinder::init(), and suppressFeature().

std::vector<cv::Point2f> vpKltOpencv::getFeatures ( ) const
inline

Get the list of current features.

Examples:
tutorial-klt-tracker-with-reinit.cpp.

Definition at line 105 of file vpKltOpencv.h.

Referenced by vpMbKltTracker::getKltPoints().

std::vector<long> vpKltOpencv::getFeaturesId ( ) const
inline

Get the unique id of each feature.

Definition at line 108 of file vpKltOpencv.h.

double vpKltOpencv::getHarrisFreeParameter ( ) const
inline

Get the free parameter of the Harris detector.

Definition at line 111 of file vpKltOpencv.h.

Referenced by vpMbKltTracker::setKltOpencv().

int vpKltOpencv::getMaxFeatures ( ) const
inline

Get the list of lost feature.

Get the maximum number of features to track in the image.

Examples:
tutorial-klt-tracker-with-reinit.cpp.

Definition at line 115 of file vpKltOpencv.h.

Referenced by vpMbKltTracker::setKltOpencv(), and vpMbKltTracker::setPose().

double vpKltOpencv::getMinDistance ( ) const
inline

Get the minimal Euclidean distance between detected corners during initialization.

Examples:
tutorial-klt-tracker-with-reinit.cpp.

Definition at line 118 of file vpKltOpencv.h.

Referenced by vpMbKltTracker::setKltOpencv().

int vpKltOpencv::getNbPrevFeatures ( ) const
inline

Get the number of previous features.

Definition at line 122 of file vpKltOpencv.h.

std::vector<cv::Point2f> vpKltOpencv::getPrevFeatures ( ) const
inline

Get the list of previous features.

Definition at line 125 of file vpKltOpencv.h.

int vpKltOpencv::getPyramidLevels ( ) const
inline

Get the list of features id.

Get the maximal pyramid level.

Definition at line 130 of file vpKltOpencv.h.

Referenced by vpMbKltTracker::setKltOpencv().

double vpKltOpencv::getQuality ( ) const
inline

Get the parameter characterizing the minimal accepted quality of image corners.

Definition at line 133 of file vpKltOpencv.h.

Referenced by vpMbKltTracker::setKltOpencv().

int vpKltOpencv::getWindowSize ( ) const
inline

Get the window size used to refine the corner locations.

Definition at line 135 of file vpKltOpencv.h.

Referenced by vpMbKltTracker::setKltOpencv().

void vpKltOpencv::initTracking ( const cv::Mat &  I,
const cv::Mat &  mask = cv::Mat() 
)

Initialise the tracking by extracting KLT keypoints on the provided image.

Parameters
I: Grey level image used as input. This image should have only 1 channel.
mask: Image mask used to restrict the keypoint detection area. If mask is NULL, all the image will be considered.
Exceptions
vpTrackingException::initializationError: If the image I is not initialized, or if the image or the mask have bad coding format.
Examples:
trackKltOpencv.cpp, tutorial-klt-tracker-live-v4l2.cpp, tutorial-klt-tracker-with-reinit.cpp, and tutorial-klt-tracker.cpp.

Definition at line 118 of file vpKltOpencv.cpp.

References m_blockSize, m_gray, m_harris_k, m_maxCount, m_minDistance, m_next_points_id, m_points, m_points_id, m_qualityLevel, m_termcrit, and m_winSize.

Referenced by vpMbKltTracker::reinit(), and suppressFeature().

void vpKltOpencv::initTracking ( const cv::Mat &  I,
const std::vector< cv::Point2f > &  pts 
)

Set the points that will be used as initialization during the next call to track().

Parameters
I: Input image.
pts: Vector of points that should be tracked.

Definition at line 474 of file vpKltOpencv.cpp.

References m_gray, m_initial_guess, m_next_points_id, m_points, and m_points_id.

void vpKltOpencv::initTracking ( const cv::Mat &  I,
const std::vector< cv::Point2f > &  pts,
const std::vector< long > &  ids 
)

Definition at line 487 of file vpKltOpencv.cpp.

References m_gray, m_initial_guess, m_next_points_id, m_points, and m_points_id.

void vpKltOpencv::setInitialGuess ( const std::vector< cv::Point2f > &  guess_pts)

Set the points that will be used as initial guess during the next call to track(). A typical usage of this function is to predict the position of the features before the next call to track().

Parameters
guess_pts: Vector of points that should be tracked. The size of this vector should be the same as the one returned by getFeatures(). If this is not the case, an exception is returned. Note also that the id of the points is not modified.
See also
initTracking()

Definition at line 423 of file vpKltOpencv.cpp.

References vpException::badValue, m_initial_guess, and m_points.

Referenced by vpMbKltTracker::setPose(), and suppressFeature().

void vpKltOpencv::setInitialGuess ( const std::vector< cv::Point2f > &  init_pts,
const std::vector< cv::Point2f > &  guess_pts,
const std::vector< long > &  fid 
)

Set the points that will be used as initial guess during the next call to track(). A typical usage of this function is to predict the position of the features before the next call to track().

Parameters
init_pts: Initial points (could be obtained from getPrevFeatures() or getFeatures()).
guess_pts: Prediction of the new position of the initial points. The size of this vector must be the same as the size of the vector of initial points.
fid: Identifiers of the initial points.
See also
getPrevFeatures(),getPrevFeaturesId
getFeatures(), getFeaturesId
initTracking()

Definition at line 450 of file vpKltOpencv.cpp.

References vpException::badValue, m_initial_guess, m_points, and m_points_id.

void vpKltOpencv::setMinEigThreshold ( double  minEigThreshold)

Set the minimal eigen value threshold used to reject a point during the tracking.

Parameters
minEigThreshold: Minimal eigen value threshold. Default value is set to 1e-4.

Definition at line 388 of file vpKltOpencv.cpp.

References m_minEigThreshold.

void vpKltOpencv::setQuality ( double  qualityLevel)

Set the parameter characterizing the minimal accepted quality of image corners.

Parameters
qualityLevel: Quality level parameter. Default value is set to 0.01. The parameter value is multiplied by the best corner quality measure, which is the minimal eigenvalue or the Harris function response. The corners with the quality measure less than the product are rejected. For example, if the best corner has the quality measure = 1500, and the qualityLevel=0.01, then all the corners with the quality measure less than 15 are rejected.
Examples:
mbtEdgeKltTracking.cpp, mbtGenericTracking.cpp, mbtGenericTracking2.cpp, mbtGenericTrackingDepth.cpp, mbtKltTracking.cpp, testGenericTracker.cpp, trackKltOpencv.cpp, tutorial-klt-tracker-live-v4l2.cpp, tutorial-klt-tracker-with-reinit.cpp, tutorial-klt-tracker.cpp, tutorial-mb-generic-tracker-apriltag-rs2.cpp, tutorial-mb-generic-tracker-apriltag-webcam.cpp, tutorial-mb-generic-tracker-full.cpp, tutorial-mb-generic-tracker-live.cpp, tutorial-mb-generic-tracker-stereo-mono.cpp, tutorial-mb-generic-tracker.cpp, tutorial-mb-hybrid-tracker.cpp, tutorial-mb-klt-tracker.cpp, tutorial-mb-tracker-full.cpp, and tutorial-mb-tracker.cpp.

Definition at line 356 of file vpKltOpencv.cpp.

References m_qualityLevel.

Referenced by vpMbEdgeKltTracker::loadConfigFile(), vpMbKltTracker::loadConfigFile(), vpMbKltTracker::resetTracker(), vpMbKltTracker::setKltOpencv(), and vpMbKltTracker::vpMbKltTracker().

void vpKltOpencv::setTrackerId ( int  tid)
inline

Does nothing. Just here for compat with previous releases that use OpenCV C api to do the tracking.

Examples:
trackKltOpencv.cpp.

Definition at line 155 of file vpKltOpencv.h.

Referenced by vpMbKltTracker::resetTracker(), and vpMbKltTracker::vpMbKltTracker().

void vpKltOpencv::setUseHarris ( int  useHarrisDetector)

Set the parameter indicating whether to use a Harris detector or the minimal eigenvalue of gradient matrices for corner detection.

Parameters
useHarrisDetector: If 1 (default value), use the Harris detector. If 0 use the eigenvalue.
Examples:
trackKltOpencv.cpp, tutorial-klt-tracker-live-v4l2.cpp, tutorial-klt-tracker-with-reinit.cpp, and tutorial-klt-tracker.cpp.

Definition at line 372 of file vpKltOpencv.cpp.

References m_useHarrisDetector.

Referenced by vpMbKltTracker::resetTracker(), and vpMbKltTracker::vpMbKltTracker().

void vpKltOpencv::track ( const cv::Mat &  I)

Track KLT keypoints using the iterative Lucas-Kanade method with pyramids.

Parameters
I: Input image.
Examples:
trackKltOpencv.cpp, tutorial-klt-tracker-live-v4l2.cpp, tutorial-klt-tracker-with-reinit.cpp, and tutorial-klt-tracker.cpp.

Definition at line 147 of file vpKltOpencv.cpp.

References vpTrackingException::fatalError, m_gray, m_initial_guess, m_minEigThreshold, m_points, m_points_id, m_prevGray, m_pyrMaxLevel, m_termcrit, and m_winSize.

Referenced by vpMbKltTracker::preTracking(), and suppressFeature().

Member Data Documentation

int vpKltOpencv::m_blockSize
protected

Definition at line 171 of file vpKltOpencv.h.

Referenced by initTracking(), operator=(), and setBlockSize().

cv::Mat vpKltOpencv::m_gray
protected

Definition at line 161 of file vpKltOpencv.h.

Referenced by initTracking(), operator=(), and track().

double vpKltOpencv::m_harris_k
protected

Definition at line 170 of file vpKltOpencv.h.

Referenced by initTracking(), operator=(), and setHarrisFreeParameter().

bool vpKltOpencv::m_initial_guess
protected

Definition at line 175 of file vpKltOpencv.h.

Referenced by initTracking(), operator=(), setInitialGuess(), and track().

int vpKltOpencv::m_maxCount
protected

Definition at line 164 of file vpKltOpencv.h.

Referenced by initTracking(), operator=(), and setMaxFeatures().

double vpKltOpencv::m_minDistance
protected

Definition at line 168 of file vpKltOpencv.h.

Referenced by initTracking(), operator=(), and setMinDistance().

double vpKltOpencv::m_minEigThreshold
protected

Definition at line 169 of file vpKltOpencv.h.

Referenced by operator=(), setMinEigThreshold(), and track().

long vpKltOpencv::m_next_points_id
protected

Definition at line 174 of file vpKltOpencv.h.

Referenced by addFeature(), initTracking(), and operator=().

std::vector<cv::Point2f> vpKltOpencv::m_points[2]
protected

Previous [0] and current [1] keypoint location.

Definition at line 162 of file vpKltOpencv.h.

Referenced by addFeature(), display(), getFeature(), initTracking(), operator=(), setInitialGuess(), suppressFeature(), and track().

std::vector<long> vpKltOpencv::m_points_id
protected

Keypoint id.

Definition at line 163 of file vpKltOpencv.h.

Referenced by addFeature(), display(), getFeature(), initTracking(), operator=(), setInitialGuess(), suppressFeature(), and track().

cv::Mat vpKltOpencv::m_prevGray
protected

Definition at line 161 of file vpKltOpencv.h.

Referenced by operator=(), and track().

int vpKltOpencv::m_pyrMaxLevel
protected

Definition at line 173 of file vpKltOpencv.h.

Referenced by operator=(), setPyramidLevels(), and track().

double vpKltOpencv::m_qualityLevel
protected

Definition at line 167 of file vpKltOpencv.h.

Referenced by initTracking(), operator=(), and setQuality().

cv::TermCriteria vpKltOpencv::m_termcrit
protected

Definition at line 165 of file vpKltOpencv.h.

Referenced by initTracking(), operator=(), track(), and vpKltOpencv().

int vpKltOpencv::m_useHarrisDetector
protected

Definition at line 172 of file vpKltOpencv.h.

Referenced by operator=(), and setUseHarris().

int vpKltOpencv::m_winSize
protected

Definition at line 166 of file vpKltOpencv.h.

Referenced by initTracking(), operator=(), setWindowSize(), and track().