Visual Servoing Platform  version 3.4.0

#include <vpMeLine.h>

+ Inheritance diagram for vpMeLine:

Public Member Functions

 vpMeLine ()
 
 vpMeLine (const vpMeLine &meline)
 
virtual ~vpMeLine ()
 
void display (const vpImage< unsigned char > &I, vpColor col)
 
void track (const vpImage< unsigned char > &Im)
 
virtual void sample (const vpImage< unsigned char > &image, bool doNotTrack=false)
 
void reSample (const vpImage< unsigned char > &I)
 
void leastSquare ()
 
void updateDelta ()
 
void setExtremities ()
 
void seekExtremities (const vpImage< unsigned char > &I)
 
void suppressPoints ()
 
void initTracking (const vpImage< unsigned char > &I)
 
void initTracking (const vpImage< unsigned char > &I, const vpImagePoint &ip1, const vpImagePoint &ip2)
 
void computeRhoTheta (const vpImage< unsigned char > &I)
 
double getRho () const
 
double getTheta () const
 
void getExtremities (vpImagePoint &ip1, vpImagePoint &ip2)
 
void getEquationParam (double &A, double &B, double &C)
 
double getA () const
 
double getB () const
 
double getC () const
 
void computeRhoSignFromIntensity (bool useIntensityForRho)
 
Public Member Functions Inherited from vpTracker
vpColVector get_p () const
 
vpColVector get_cP () const
 

Static Public Member Functions

static bool intersection (const vpMeLine &line1, const vpMeLine &line2, vpImagePoint &ip)
 
static void display (const vpImage< unsigned char > &I, const vpMeSite &PExt1, const vpMeSite &PExt2, const double &A, const double &B, const double &C, const vpColor &color=vpColor::green, unsigned int thickness=1)
 
static void display (const vpImage< vpRGBa > &I, const vpMeSite &PExt1, const vpMeSite &PExt2, const double &A, const double &B, const double &C, const vpColor &color=vpColor::green, unsigned int thickness=1)
 
static void display (const vpImage< unsigned char > &I, const vpMeSite &PExt1, const vpMeSite &PExt2, const std::list< vpMeSite > &site_list, const double &A, const double &B, const double &C, const vpColor &color=vpColor::green, unsigned int thickness=1)
 
static void display (const vpImage< vpRGBa > &I, const vpMeSite &PExt1, const vpMeSite &PExt2, const std::list< vpMeSite > &site_list, const double &A, const double &B, const double &C, const vpColor &color=vpColor::green, unsigned int thickness=1)
 

Public Attributes

double a
 
double b
 
double c
 
Public Attributes Inherited from vpMeTracker
std::list< vpMeSitelist
 
vpMeme
 
unsigned int init_range
 
int nGoodElement
 
const vpImage< bool > * m_mask
 
int query_range
 
bool display_point
 
Public Attributes Inherited from vpTracker
vpColVector p
 
vpColVector cP
 
bool cPAvailable
 

Protected Attributes

vpMeSite PExt [2]
 
double rho
 
double theta
 
double delta
 
double delta_1
 
double angle
 
double angle_1
 
int sign
 
bool _useIntensityForRho
 
Protected Attributes Inherited from vpMeTracker
vpMeSite::vpMeSiteDisplayType selectDisplay
 

Public Member Functions Inherited from vpMeTracker

virtual void display (const vpImage< unsigned char > &I)
 
virtual void display (const vpImage< vpRGBa > &I)
 
void display (const vpImage< unsigned char > &I, vpColVector &w, unsigned int &index_w)
 
unsigned int getInitRange ()
 
vpMegetMe ()
 
std::list< vpMeSite > & getMeList ()
 
std::list< vpMeSitegetMeList () const
 
int getNbPoints () const
 
void init ()
 
unsigned int numberOfSignal ()
 
int outOfImage (int i, int j, int half, int row, int cols)
 
int outOfImage (const vpImagePoint &iP, int half, int rows, int cols)
 
void reset ()
 
void setDisplay (vpMeSite::vpMeSiteDisplayType select)
 
void setInitRange (const unsigned int &r)
 
virtual void setMask (const vpImage< bool > &mask)
 
void setMe (vpMe *p_me)
 
void setMeList (const std::list< vpMeSite > &l)
 
unsigned int totalNumberOfSignal ()
 
static bool inMask (const vpImage< bool > *mask, unsigned int i, unsigned int j)
 

Detailed Description

Class that tracks in an image a line moving edges.

In this class the line is defined by its equation in the $ (i,j) = (line,column) $ image plane. Two kinds of parametrization are available to describe a 2D line. The first one corresponds to the following equation

\[ ai + bj + c = 0 \]

where $ i $ and $ j $ are the coordinates of the points belonging to the line. The line features are $ (a, b, c) $.

The second way to write the line equation is to consider polar coordinates

\[ i \; cos(\theta) + j \; sin(\theta) - \rho = 0 \]

where $ i $ and $ j $ are still the coordinates of the points belonging to the line. But now the line features are $ (\rho, \theta) $. The computation of $ \rho $ and $ \theta $ is easy thanks to $ (a, b, c) $.

\[ \theta = arctan(b/a) \]

\[ \rho = -c/\sqrt{a^2+b^2} \]

The value of $ \theta $ is between $ 0 $ and $ 2\pi $. And the value of $ \rho $ can be positive or negative. The conventions to find the right values of the two features are illustrated in the following pictures.

vpMeLine.gif

The angle $\theta$ is computed thanks to the direction of the arrow. The arrow points to the side of the line which is darker.

The example below available in tutorial-me-line-tracker.cpp and described in Tutorial: Moving-edges tracking shows how to use this class.

#include <visp3/core/vpConfig.h>
#ifdef VISP_HAVE_MODULE_SENSOR
#include <visp3/sensor/vp1394CMUGrabber.h>
#include <visp3/sensor/vp1394TwoGrabber.h>
#include <visp3/sensor/vpV4l2Grabber.h>
#endif
#include <visp3/gui/vpDisplayGDI.h>
#include <visp3/gui/vpDisplayOpenCV.h>
#include <visp3/gui/vpDisplayX.h>
#include <visp3/me/vpMeLine.h>
int main()
{
#if (defined(VISP_HAVE_DC1394) || defined(VISP_HAVE_CMU1394) || defined(VISP_HAVE_V4L2))
try {
#if defined(VISP_HAVE_DC1394)
vp1394TwoGrabber g(false);
#elif defined(VISP_HAVE_CMU1394)
#elif defined(VISP_HAVE_V4L2)
#elif defined(VISP_HAVE_OPENCV)
cv::VideoCapture g(0); // open the default camera
if (!g.isOpened()) { // check if we succeeded
std::cout << "Failed to open the camera" << std::endl;
return -1;
}
cv::Mat frame;
g >> frame; // get a new frame from camera
#endif
g.open(I);
g.acquire(I);
#if defined(VISP_HAVE_X11)
vpDisplayX d(I, 0, 0, "Camera view");
#elif defined(VISP_HAVE_GDI)
vpDisplayGDI d(I, 0, 0, "Camera view");
#elif defined(VISP_HAVE_OPENCV)
vpDisplayOpenCV d(I, 0, 0, "Camera view");
#else
std::cout << "No image viewer is available..." << std::endl;
#endif
me.setRange(25);
me.setThreshold(15000);
me.setSampleStep(10);
vpMeLine line;
line.setMe(&me);
line.initTracking(I);
while (1) {
#if defined(VISP_HAVE_DC1394) || defined(VISP_HAVE_V4L2) || defined(VISP_HAVE_CMU1394)
g.acquire(I);
#elif defined(VISP_HAVE_OPENCV)
g >> frame;
#endif
line.track(I);
}
} catch (const vpException &e) {
std::cout << "Catch an exception: " << e << std::endl;
}
#endif
}

The code below shows how to use this class.

#include <visp3/core/vpConfig.h>
#include <visp3/core/vpImage.h>
#include <visp3/core/vpImagePoint.h>
#include <visp3/me/vpMeLine.h>
int main()
{
// Fill the image with a black rectangle
I = 0;
for (int i = 100; i < 180; i ++) {
for (int j = 120; j < 250; j ++) {
I[i][j] = 255;
}
}
// Set the moving-edges tracker parameters
me.setRange(25);
me.setThreshold(15000);
me.setSampleStep(10);
// Initialize the moving-edges line tracker parameters
vpMeLine line;
line.setMe(&me);
// Initialize the location of the vertical line to track
vpImagePoint ip1, ip2; // Two points belonging to the line to track
ip1.set_i( 120 );
ip1.set_j( 119 );
ip2.set_i( 170 );
ip2.set_j( 122 );
line.initTracking(I, ip1, ip2);
while ( 1 )
{
// ... Here the code to read or grab the next image.
// Track the line.
line.track(I);
}
return 0;
}
Note
It is possible to display the line as an overlay. For that you must use the display function of the class vpMeLine.
Examples:
servoAfma62DhalfCamVelocity.cpp, servoAfma6Cylinder2DCamVelocity.cpp, servoAfma6Cylinder2DCamVelocitySecondaryTask.cpp, servoAfma6Line2DCamVelocity.cpp, servoAfma6SquareLines2DCamVelocity.cpp, servoAfma6TwoLines2DCamVelocity.cpp, trackMeLine.cpp, and tutorial-me-line-tracker.cpp.

Definition at line 151 of file vpMeLine.h.

Constructor & Destructor Documentation

vpMeLine::vpMeLine ( )

Basic constructor that calls the constructor of the class vpMeTracker.

Definition at line 98 of file vpMeLine.cpp.

vpMeLine::vpMeLine ( const vpMeLine meline)

Copy constructor.

Definition at line 108 of file vpMeLine.cpp.

References _useIntensityForRho, a, angle, angle_1, b, c, delta, delta_1, PExt, rho, sign, and theta.

vpMeLine::~vpMeLine ( )
virtual

Basic destructor.

Definition at line 134 of file vpMeLine.cpp.

References vpMeTracker::list.

Member Function Documentation

void vpMeLine::computeRhoSignFromIntensity ( bool  useIntensityForRho)
inline

This method allows to turn off the computation of the sign of the rho attribute based on the intensity near the middle point of the line. This is usually done to distinguish between a black/white and a white/black edge but it may be source of problem (ex. for a servoing example) when this point can be occluded.

Parameters
useIntensityForRho: new value of the flag.

Definition at line 239 of file vpMeLine.h.

References vpMeTracker::display(), and vpColor::green.

void vpMeLine::computeRhoTheta ( const vpImage< unsigned char > &  I)
void vpMeTracker::display ( const vpImage< unsigned char > &  I)
virtualinherited

Display the moving edge sites with a color corresponding to their state.

  • If green : The vpMeSite is a good point.
  • If blue : The point is removed because of the vpMeSite tracking phase (constrast problem).
  • If purple : The point is removed because of the vpMeSite tracking phase (threshold problem).
  • If red : The point is removed because of the robust method in the virtual visual servoing (M-Estimator problem).
  • If cyan : The point is removed because it's too close to another.
  • Yellow otherwise
Parameters
I: The image.

Definition at line 326 of file vpMeTracker.cpp.

References vpMeSite::display(), and vpMeTracker::list.

void vpMeTracker::display ( const vpImage< vpRGBa > &  I)
virtualinherited

Definition at line 340 of file vpMeTracker.cpp.

References vpMeSite::display(), and vpMeTracker::list.

void vpMeTracker::display ( const vpImage< unsigned char > &  I,
vpColVector w,
unsigned int &  index_w 
)
inherited

Displays the status of moving edge sites

Parameters
I: The image.
w: vector
index_w: index

Definition at line 354 of file vpMeTracker.cpp.

References vpMeTracker::display(), vpMeSite::getState(), vpMeTracker::list, vpMeSite::NO_SUPPRESSION, and vpMeSite::weight.

void vpMeLine::display ( const vpImage< unsigned char > &  I,
vpColor  col 
)
virtual

Display line.

Warning
To effectively display the line a call to vpDisplay::flush() is needed.
Parameters
I: Image in which the line appears.
col: Color of the displayed line. Note that a moving edge that is considered as an outlier is displayed in green.

Implements vpMeTracker.

Examples:
servoAfma62DhalfCamVelocity.cpp, servoAfma6Cylinder2DCamVelocity.cpp, servoAfma6Cylinder2DCamVelocitySecondaryTask.cpp, servoAfma6Line2DCamVelocity.cpp, servoAfma6SquareLines2DCamVelocity.cpp, servoAfma6TwoLines2DCamVelocity.cpp, trackMeLine.cpp, and tutorial-me-line-tracker.cpp.

Definition at line 224 of file vpMeLine.cpp.

References vpMeTracker::list, and PExt.

Referenced by track().

void vpMeLine::display ( const vpImage< unsigned char > &  I,
const vpMeSite PExt1,
const vpMeSite PExt2,
const double &  A,
const double &  B,
const double &  C,
const vpColor color = vpColor::green,
unsigned int  thickness = 1 
)
static

Display of a moving line thanks to its equation parameters and its extremities.

Parameters
I: The image used as background.
PExt1: First extrimity
PExt2: Second extrimity
A: Parameter a of the line equation a*i + b*j + c = 0
B: Parameter b of the line equation a*i + b*j + c = 0
C: Parameter c of the line equation a*i + b*j + c = 0
color: Color used to display the line.
thickness: Thickness of the line.

Definition at line 1063 of file vpMeLine.cpp.

References vpDisplay::displayCross(), vpDisplay::displayLine(), vpImage< Type >::getHeight(), vpImage< Type >::getWidth(), vpColor::green, vpMeSite::ifloat, vpMeSite::jfloat, vpImagePoint::set_i(), and vpImagePoint::set_j().

void vpMeLine::display ( const vpImage< vpRGBa > &  I,
const vpMeSite PExt1,
const vpMeSite PExt2,
const double &  A,
const double &  B,
const double &  C,
const vpColor color = vpColor::green,
unsigned int  thickness = 1 
)
static

Display of a moving line thanks to its equation parameters and its extremities.

Parameters
I: The image used as background.
PExt1: First extrimity
PExt2: Second extrimity
A: Parameter a of the line equation a*i + b*j + c = 0
B: Parameter b of the line equation a*i + b*j + c = 0
C: Parameter c of the line equation a*i + b*j + c = 0
color: Color used to display the line.
thickness: Thickness of the line.

Definition at line 1126 of file vpMeLine.cpp.

References vpDisplay::displayCross(), vpDisplay::displayLine(), vpImage< Type >::getHeight(), vpImage< Type >::getWidth(), vpColor::green, vpMeSite::ifloat, vpMeSite::jfloat, vpImagePoint::set_i(), and vpImagePoint::set_j().

void vpMeLine::display ( const vpImage< unsigned char > &  I,
const vpMeSite PExt1,
const vpMeSite PExt2,
const std::list< vpMeSite > &  site_list,
const double &  A,
const double &  B,
const double &  C,
const vpColor color = vpColor::green,
unsigned int  thickness = 1 
)
static

Display of a moving line thanks to its equation parameters and its extremities with all the site list.

Parameters
I: The image used as background.
PExt1: First extrimity
PExt2: Second extrimity
site_list: vpMeSite list
A: Parameter a of the line equation a*i + b*j + c = 0
B: Parameter b of the line equation a*i + b*j + c = 0
C: Parameter c of the line equation a*i + b*j + c = 0
color: Color used to display the line.
thickness: Thickness of the line.

Definition at line 1191 of file vpMeLine.cpp.

References vpDisplay::displayCross(), vpDisplay::displayLine(), vpImage< Type >::getHeight(), vpMeSite::getState(), vpImage< Type >::getWidth(), vpColor::green, vpMeSite::ifloat, vpMeSite::jfloat, vpMeSite::M_ESTIMATOR, vpImagePoint::set_i(), and vpImagePoint::set_j().

void vpMeLine::display ( const vpImage< vpRGBa > &  I,
const vpMeSite PExt1,
const vpMeSite PExt2,
const std::list< vpMeSite > &  site_list,
const double &  A,
const double &  B,
const double &  C,
const vpColor color = vpColor::green,
unsigned int  thickness = 1 
)
static

Display of a moving line thanks to its equation parameters and its extremities with all the site list.

Parameters
I: The image used as background.
PExt1: First extrimity
PExt2: Second extrimity
site_list: vpMeSite list
A: Parameter a of the line equation a*i + b*j + c = 0
B: Parameter b of the line equation a*i + b*j + c = 0
C: Parameter c of the line equation a*i + b*j + c = 0
color: Color used to display the line.
thickness: Thickness of the line.

Definition at line 1272 of file vpMeLine.cpp.

References vpDisplay::displayCross(), vpDisplay::displayLine(), vpImage< Type >::getHeight(), vpMeSite::getState(), vpImage< Type >::getWidth(), vpColor::green, vpMeSite::ifloat, vpMeSite::jfloat, vpMeSite::M_ESTIMATOR, vpImagePoint::set_i(), and vpImagePoint::set_j().

vpColVector vpTracker::get_cP ( ) const
inlineinherited

Return object parameters expressed in the 3D camera frame.

Definition at line 99 of file vpTracker.h.

vpColVector vpTracker::get_p ( ) const
inlineinherited

Return object parameters expressed in the 2D image plane computed by perspective projection.

Definition at line 97 of file vpTracker.h.

double vpMeLine::getA ( ) const
inline

Gets parameter a of the line equation a*i + b*j + c = 0

Definition at line 216 of file vpMeLine.h.

double vpMeLine::getB ( ) const
inline

Gets parameter b of the line equation a*i + b*j + c = 0

Definition at line 221 of file vpMeLine.h.

double vpMeLine::getC ( ) const
inline

Gets parameter c of the line equation a*i + b*j + c = 0

Definition at line 226 of file vpMeLine.h.

void vpMeLine::getEquationParam ( double &  A,
double &  B,
double &  C 
)
inline

Gets the equation parameters of the line

Definition at line 206 of file vpMeLine.h.

void vpMeLine::getExtremities ( vpImagePoint ip1,
vpImagePoint ip2 
)

Get the extremities of the line.

Parameters
ip1: Coordinates of the first extremity.
ip2: Coordinates of the second extremity.

Definition at line 969 of file vpMeLine.cpp.

References PExt, vpImagePoint::set_i(), and vpImagePoint::set_j().

unsigned int vpMeTracker::getInitRange ( )
inlineinherited

Return the initial range.

Returns
Value of init_range.

Definition at line 113 of file vpMeTracker.h.

vpMe* vpMeTracker::getMe ( )
inlineinherited

Return the moving edges initialisation parameters

Returns
Moving Edges.
Examples:
trackMeCircle.cpp, and trackMeEllipse.cpp.

Definition at line 120 of file vpMeTracker.h.

std::list<vpMeSite>& vpMeTracker::getMeList ( )
inlineinherited

Return the list of moving edges

Returns
List of Moving Edges.

Definition at line 127 of file vpMeTracker.h.

std::list<vpMeSite> vpMeTracker::getMeList ( ) const
inlineinherited

Definition at line 128 of file vpMeTracker.h.

int vpMeTracker::getNbPoints ( ) const
inlineinherited

Return the number of points that has not been suppressed.

Returns
Number of good points.

Definition at line 135 of file vpMeTracker.h.

References vpTracker::init(), and vpTracker::operator=().

double vpMeLine::getRho ( ) const

Get the value of $\rho$, the distance between the origin and the point on the line with belong to the normal to the line crossing the origin.

Depending on the convention described at the beginning of this class, $\rho$ is signed.

Examples:
trackMeLine.cpp.

Definition at line 955 of file vpMeLine.cpp.

References rho.

Referenced by vpFeatureBuilder::create().

double vpMeLine::getTheta ( ) const

Get the value of the angle $\theta$.

Examples:
trackMeLine.cpp.

Definition at line 960 of file vpMeLine.cpp.

References theta.

Referenced by vpFeatureBuilder::create().

void vpMeTracker::init ( void  )
inherited
void vpMeLine::initTracking ( const vpImage< unsigned char > &  I)
void vpMeLine::initTracking ( const vpImage< unsigned char > &  I,
const vpImagePoint ip1,
const vpImagePoint ip2 
)

Initialization of the tracking. The line is defined thanks to the coordinates of two points.

Parameters
I: Image in which the line appears.
ip1: Coordinates of the first point.
ip2: Coordinates of the second point.

Definition at line 424 of file vpMeLine.cpp.

References delta, delta_1, vpImagePoint::get_i(), vpImagePoint::get_j(), vpMeSite::ifloat, vpMeTracker::initTracking(), vpMeSite::jfloat, PExt, vpMath::round(), sample(), track(), vpCDEBUG, and vpERROR_TRACE.

bool vpMeTracker::inMask ( const vpImage< bool > *  mask,
unsigned int  i,
unsigned int  j 
)
staticinherited

Test whether the pixel is inside the mask. Mask values that are set to true are considered in the tracking.

Parameters
maskMask image or NULL if not wanted. Mask values that are set to true are considered in the tracking. To disable a pixel, set false.
i: Pixel coordinate along the rows.
j: Pixel coordinate along the columns.

Definition at line 140 of file vpMeTracker.cpp.

References vpImage< Type >::getValue().

Referenced by vpMbtFaceDepthDense::computeDesiredFeatures(), vpMbtFaceDepthNormal::computeDesiredFeatures(), vpMbtDistanceKltPoints::computeNbDetectedCurrent(), vpMbtDistanceKltPoints::init(), and vpMeTracker::track().

bool vpMeLine::intersection ( const vpMeLine line1,
const vpMeLine line2,
vpImagePoint ip 
)
static

Computes the intersection point of two lines. The result is given in the (i,j) frame.

Parameters
line1: The first line.
line2: The second line.
ip: The coordinates of the intersection point.
Returns
Returns a boolean value which depends on the computation success. True means that the computation ends successfully.
Examples:
servoAfma62DhalfCamVelocity.cpp.

Definition at line 990 of file vpMeLine.cpp.

References a, b, c, vpImagePoint::set_i(), and vpImagePoint::set_j().

void vpMeLine::leastSquare ( )

Least squares method used to make the tracking more robust. It ensures that the points taken into account to compute the right equation belong to the line.

Definition at line 265 of file vpMeLine.cpp.

References vpMatrix::eye(), vpMeSite::getState(), vpMeSite::ifloat, vpMeSite::jfloat, vpMeTracker::list, vpMeSite::M_ESTIMATOR, vpRobust::MEstimator(), vpMeSite::NO_SUPPRESSION, vpTrackingException::notEnoughPointError, vpMeTracker::numberOfSignal(), vpMatrix::pseudoInverse(), vpRobust::setMinMedianAbsoluteDeviation(), vpMeSite::setState(), vpMath::sqr(), vpRobust::TUKEY, and vpCDEBUG.

Referenced by track().

unsigned int vpMeTracker::numberOfSignal ( )
inherited
int vpMeTracker::outOfImage ( int  i,
int  j,
int  half,
int  row,
int  cols 
)
inherited
int vpMeTracker::outOfImage ( const vpImagePoint iP,
int  half,
int  rows,
int  cols 
)
inherited

Definition at line 155 of file vpMeTracker.cpp.

References vpImagePoint::get_i(), vpImagePoint::get_j(), and vpMath::round().

void vpMeLine::reSample ( const vpImage< unsigned char > &  I)

Resample the line if the number of sample is less than 80% of the expected value.

Note
The expected value is computed thanks to the length of the line and the parameter which indicates the number of pixel between two points (vpMe::sample_step).
Parameters
I: Image in which the line appears.

Definition at line 666 of file vpMeLine.cpp.

References delta, delta_1, vpMe::getSampleStep(), vpMeSite::ifloat, vpTrackingException::initializationError, vpMeTracker::initTracking(), vpMeSite::jfloat, vpMeTracker::me, vpMeTracker::numberOfSignal(), PExt, sample(), vpMath::sqr(), and vpDERROR_TRACE.

Referenced by track().

void vpMeTracker::reset ( )
inherited

Reset the tracker by removing all the moving edges.

Definition at line 96 of file vpMeTracker.cpp.

References vpMeTracker::list, and vpMeTracker::nGoodElement.

Referenced by vpMeTracker::~vpMeTracker().

void vpMeLine::sample ( const vpImage< unsigned char > &  I,
bool  doNotTrack = false 
)
virtual
void vpMeLine::setExtremities ( )

Seek in the list of available points the two extremities of the line.

Definition at line 493 of file vpMeLine.cpp.

References vpMeSite::ifloat, vpMeSite::jfloat, vpMeTracker::list, and PExt.

Referenced by track().

void vpMeTracker::setInitRange ( const unsigned int &  r)
inlineinherited

Set the initial range.

Parameters
r: initial range.

Definition at line 159 of file vpMeTracker.h.

virtual void vpMeTracker::setMask ( const vpImage< bool > &  mask)
inlinevirtualinherited

Set the mask

Parameters
mask: Mask.

Definition at line 166 of file vpMeTracker.h.

void vpMeTracker::setMeList ( const std::list< vpMeSite > &  l)
inlineinherited

Set the list of moving edges

Parameters
l: list of Moving Edges.

Definition at line 180 of file vpMeTracker.h.

void vpMeLine::suppressPoints ( )

Suppression of the points which belong no more to the line.

Definition at line 477 of file vpMeLine.cpp.

References vpMeSite::getState(), vpMeTracker::list, and vpMeSite::NO_SUPPRESSION.

Referenced by track().

unsigned int vpMeTracker::totalNumberOfSignal ( )
inherited

Definition at line 129 of file vpMeTracker.cpp.

References vpMeTracker::list.

void vpMeLine::updateDelta ( )

Set the alpha value of the different vpMeSite to the value of delta.

Definition at line 705 of file vpMeLine.cpp.

References vpMeSite::alpha, angle_1, delta, delta_1, vpMeTracker::list, vpMeSite::mask_sign, vpMath::round(), and sign.

Referenced by track().

Member Data Documentation

bool vpMeLine::_useIntensityForRho
protected

Flag to specify wether the intensity of the image at the middle point is used to compute the sign of rho or not.

Definition at line 166 of file vpMeLine.h.

Referenced by computeRhoTheta(), and vpMeLine().

double vpMeLine::a

Parameter a of the line equation a*i + b*j + c = 0.

Definition at line 174 of file vpMeLine.h.

Referenced by intersection(), and vpMeLine().

double vpMeLine::angle
protected

Definition at line 161 of file vpMeLine.h.

Referenced by vpMeLine().

double vpMeLine::angle_1
protected

Definition at line 161 of file vpMeLine.h.

Referenced by updateDelta(), and vpMeLine().

double vpMeLine::b

Parameter b of the line equation a*i + b*j + c = 0.

Definition at line 175 of file vpMeLine.h.

Referenced by computeRhoTheta(), intersection(), and vpMeLine().

double vpMeLine::c

Parameter c of the line equation a*i + b*j + c = 0.

Definition at line 176 of file vpMeLine.h.

Referenced by intersection(), and vpMeLine().

bool vpTracker::cPAvailable
inherited

Flag used to indicate if the feature parameters cP expressed in the camera frame are available.

Definition at line 83 of file vpTracker.h.

Referenced by vpTracker::init(), and vpTracker::operator=().

double vpMeLine::delta
protected

Definition at line 160 of file vpMeLine.h.

Referenced by initTracking(), reSample(), updateDelta(), and vpMeLine().

double vpMeLine::delta_1
protected

Definition at line 160 of file vpMeLine.h.

Referenced by initTracking(), reSample(), seekExtremities(), updateDelta(), and vpMeLine().

bool vpMeTracker::display_point
inherited

Definition at line 193 of file vpMeTracker.h.

Referenced by vpMeTracker::operator=(), and vpMeTracker::vpMeTracker().

unsigned int vpMeTracker::init_range
inherited
const vpImage<bool>* vpMeTracker::m_mask
inherited

Mask used to disable tracking on a part of image.

Definition at line 84 of file vpMeTracker.h.

Referenced by vpMeTracker::track().

int vpMeTracker::nGoodElement
inherited
vpMeSite vpMeLine::PExt[2]
protected
int vpMeTracker::query_range
inherited

Definition at line 192 of file vpMeTracker.h.

Referenced by vpMeTracker::operator=(), and vpMeTracker::vpMeTracker().

double vpMeLine::rho
protected

Definition at line 159 of file vpMeLine.h.

Referenced by computeRhoTheta(), getRho(), and vpMeLine().

int vpMeLine::sign
protected

Definition at line 162 of file vpMeLine.h.

Referenced by sample(), seekExtremities(), updateDelta(), and vpMeLine().

double vpMeLine::theta
protected

Definition at line 159 of file vpMeLine.h.

Referenced by getTheta(), track(), and vpMeLine().