OpenCV  4.10.0
Open Source Computer Vision
Loading...
Searching...
No Matches
Public Types | Public Member Functions | Static Public Member Functions | List of all members
cv::DISOpticalFlow Class Referenceabstract

DIS optical flow algorithm. More...

#include <opencv2/video/tracking.hpp>

Collaboration diagram for cv::DISOpticalFlow:

Public Types

enum  {
  PRESET_ULTRAFAST = 0 ,
  PRESET_FAST = 1 ,
  PRESET_MEDIUM = 2
}
 

Public Member Functions

virtual int getFinestScale () const =0
 Finest level of the Gaussian pyramid on which the flow is computed (zero level corresponds to the original image resolution). The final flow is obtained by bilinear upscaling.
 
virtual int getGradientDescentIterations () const =0
 Maximum number of gradient descent iterations in the patch inverse search stage. Higher values may improve quality in some cases.
 
virtual int getPatchSize () const =0
 Size of an image patch for matching (in pixels). Normally, default 8x8 patches work well enough in most cases.
 
virtual int getPatchStride () const =0
 Stride between neighbor patches. Must be less than patch size. Lower values correspond to higher flow quality.
 
virtual bool getUseMeanNormalization () const =0
 Whether to use mean-normalization of patches when computing patch distance. It is turned on by default as it typically provides a noticeable quality boost because of increased robustness to illumination variations. Turn it off if you are certain that your sequence doesn't contain any changes in illumination.
 
virtual bool getUseSpatialPropagation () const =0
 Whether to use spatial propagation of good optical flow vectors. This option is turned on by default, as it tends to work better on average and can sometimes help recover from major errors introduced by the coarse-to-fine scheme employed by the DIS optical flow algorithm. Turning this option off can make the output flow field a bit smoother, however.
 
virtual float getVariationalRefinementAlpha () const =0
 Weight of the smoothness term.
 
virtual float getVariationalRefinementDelta () const =0
 Weight of the color constancy term.
 
virtual float getVariationalRefinementEpsilon () const =0
 Norm value shift for robust penalizer.
 
virtual float getVariationalRefinementGamma () const =0
 Weight of the gradient constancy term.
 
virtual int getVariationalRefinementIterations () const =0
 Number of fixed point iterations of variational refinement per scale. Set to zero to disable variational refinement completely. Higher values will typically result in more smooth and high-quality flow.
 
virtual void setFinestScale (int val)=0
 Finest level of the Gaussian pyramid on which the flow is computed (zero level corresponds to the original image resolution). The final flow is obtained by bilinear upscaling.
 
virtual void setGradientDescentIterations (int val)=0
 Maximum number of gradient descent iterations in the patch inverse search stage. Higher values may improve quality in some cases.
 
virtual void setPatchSize (int val)=0
 Size of an image patch for matching (in pixels). Normally, default 8x8 patches work well enough in most cases.
 
virtual void setPatchStride (int val)=0
 Stride between neighbor patches. Must be less than patch size. Lower values correspond to higher flow quality.
 
virtual void setUseMeanNormalization (bool val)=0
 Whether to use mean-normalization of patches when computing patch distance. It is turned on by default as it typically provides a noticeable quality boost because of increased robustness to illumination variations. Turn it off if you are certain that your sequence doesn't contain any changes in illumination.
 
virtual void setUseSpatialPropagation (bool val)=0
 Whether to use spatial propagation of good optical flow vectors. This option is turned on by default, as it tends to work better on average and can sometimes help recover from major errors introduced by the coarse-to-fine scheme employed by the DIS optical flow algorithm. Turning this option off can make the output flow field a bit smoother, however.
 
virtual void setVariationalRefinementAlpha (float val)=0
 Weight of the smoothness term.
 
virtual void setVariationalRefinementDelta (float val)=0
 Weight of the color constancy term.
 
virtual void setVariationalRefinementEpsilon (float val)=0
 Norm value shift for robust penalizer.
 
virtual void setVariationalRefinementGamma (float val)=0
 Weight of the gradient constancy term.
 
virtual void setVariationalRefinementIterations (int val)=0
 Maximum number of gradient descent iterations in the patch inverse search stage. Higher values may improve quality in some cases.
 
- Public Member Functions inherited from cv::DenseOpticalFlow
virtual void calc (InputArray I0, InputArray I1, InputOutputArray flow)=0
 Calculates an optical flow.
 
virtual void collectGarbage ()=0
 Releases all inner buffers.
 
- Public Member Functions inherited from cv::Algorithm
 Algorithm ()
 
virtual ~Algorithm ()
 
virtual void clear ()
 Clears the algorithm state.
 
virtual bool empty () const
 Returns true if the Algorithm is empty (e.g. in the very beginning or after unsuccessful read.
 
virtual String getDefaultName () const
 
virtual void read (const FileNode &fn)
 Reads algorithm parameters from a file storage.
 
virtual void save (const String &filename) const
 
void write (const Ptr< FileStorage > &fs, const String &name=String()) const
 
virtual void write (FileStorage &fs) const
 Stores algorithm parameters in a file storage.
 
void write (FileStorage &fs, const String &name) const
 

Static Public Member Functions

static Ptr< DISOpticalFlowcreate (int preset=DISOpticalFlow::PRESET_FAST)
 Creates an instance of DISOpticalFlow.
 
- Static Public Member Functions inherited from cv::Algorithm
template<typename _Tp >
static Ptr< _Tpload (const String &filename, const String &objname=String())
 Loads algorithm from the file.
 
template<typename _Tp >
static Ptr< _TploadFromString (const String &strModel, const String &objname=String())
 Loads algorithm from a String.
 
template<typename _Tp >
static Ptr< _Tpread (const FileNode &fn)
 Reads algorithm from the file node.
 

Additional Inherited Members

- Protected Member Functions inherited from cv::Algorithm
void writeFormat (FileStorage &fs) const
 

Detailed Description

DIS optical flow algorithm.

This class implements the Dense Inverse Search (DIS) optical flow algorithm. More details about the algorithm can be found at [150] . Includes three presets with preselected parameters to provide reasonable trade-off between speed and quality. However, even the slowest preset is still relatively fast, use DeepFlow if you need better quality and don't care about speed.

This implementation includes several additional features compared to the algorithm described in the paper, including spatial propagation of flow vectors (getUseSpatialPropagation), as well as an option to utilize an initial flow approximation passed to calc (which is, essentially, temporal propagation, if the previous frame's flow field is passed).

Member Enumeration Documentation

◆ anonymous enum

anonymous enum
Enumerator
PRESET_ULTRAFAST 
PRESET_FAST 
PRESET_MEDIUM 

Member Function Documentation

◆ create()

static Ptr< DISOpticalFlow > cv::DISOpticalFlow::create ( int  preset = DISOpticalFlow::PRESET_FAST)
static
Python:
cv.DISOpticalFlow.create([, preset]) -> retval
cv.DISOpticalFlow_create([, preset]) -> retval

Creates an instance of DISOpticalFlow.

Parameters
presetone of PRESET_ULTRAFAST, PRESET_FAST and PRESET_MEDIUM

◆ getFinestScale()

virtual int cv::DISOpticalFlow::getFinestScale ( ) const
pure virtual
Python:
cv.DISOpticalFlow.getFinestScale() -> retval

Finest level of the Gaussian pyramid on which the flow is computed (zero level corresponds to the original image resolution). The final flow is obtained by bilinear upscaling.

See also
setFinestScale

◆ getGradientDescentIterations()

virtual int cv::DISOpticalFlow::getGradientDescentIterations ( ) const
pure virtual
Python:
cv.DISOpticalFlow.getGradientDescentIterations() -> retval

Maximum number of gradient descent iterations in the patch inverse search stage. Higher values may improve quality in some cases.

See also
setGradientDescentIterations

◆ getPatchSize()

virtual int cv::DISOpticalFlow::getPatchSize ( ) const
pure virtual
Python:
cv.DISOpticalFlow.getPatchSize() -> retval

Size of an image patch for matching (in pixels). Normally, default 8x8 patches work well enough in most cases.

See also
setPatchSize

◆ getPatchStride()

virtual int cv::DISOpticalFlow::getPatchStride ( ) const
pure virtual
Python:
cv.DISOpticalFlow.getPatchStride() -> retval

Stride between neighbor patches. Must be less than patch size. Lower values correspond to higher flow quality.

See also
setPatchStride

◆ getUseMeanNormalization()

virtual bool cv::DISOpticalFlow::getUseMeanNormalization ( ) const
pure virtual
Python:
cv.DISOpticalFlow.getUseMeanNormalization() -> retval

Whether to use mean-normalization of patches when computing patch distance. It is turned on by default as it typically provides a noticeable quality boost because of increased robustness to illumination variations. Turn it off if you are certain that your sequence doesn't contain any changes in illumination.

See also
setUseMeanNormalization

◆ getUseSpatialPropagation()

virtual bool cv::DISOpticalFlow::getUseSpatialPropagation ( ) const
pure virtual
Python:
cv.DISOpticalFlow.getUseSpatialPropagation() -> retval

Whether to use spatial propagation of good optical flow vectors. This option is turned on by default, as it tends to work better on average and can sometimes help recover from major errors introduced by the coarse-to-fine scheme employed by the DIS optical flow algorithm. Turning this option off can make the output flow field a bit smoother, however.

See also
setUseSpatialPropagation

◆ getVariationalRefinementAlpha()

virtual float cv::DISOpticalFlow::getVariationalRefinementAlpha ( ) const
pure virtual
Python:
cv.DISOpticalFlow.getVariationalRefinementAlpha() -> retval

Weight of the smoothness term.

See also
setVariationalRefinementAlpha

◆ getVariationalRefinementDelta()

virtual float cv::DISOpticalFlow::getVariationalRefinementDelta ( ) const
pure virtual
Python:
cv.DISOpticalFlow.getVariationalRefinementDelta() -> retval

Weight of the color constancy term.

See also
setVariationalRefinementDelta

◆ getVariationalRefinementEpsilon()

virtual float cv::DISOpticalFlow::getVariationalRefinementEpsilon ( ) const
pure virtual
Python:
cv.DISOpticalFlow.getVariationalRefinementEpsilon() -> retval

Norm value shift for robust penalizer.

See also
setVariationalRefinementEpsilon

◆ getVariationalRefinementGamma()

virtual float cv::DISOpticalFlow::getVariationalRefinementGamma ( ) const
pure virtual
Python:
cv.DISOpticalFlow.getVariationalRefinementGamma() -> retval

Weight of the gradient constancy term.

See also
setVariationalRefinementGamma

◆ getVariationalRefinementIterations()

virtual int cv::DISOpticalFlow::getVariationalRefinementIterations ( ) const
pure virtual
Python:
cv.DISOpticalFlow.getVariationalRefinementIterations() -> retval

Number of fixed point iterations of variational refinement per scale. Set to zero to disable variational refinement completely. Higher values will typically result in more smooth and high-quality flow.

See also
setGradientDescentIterations

◆ setFinestScale()

virtual void cv::DISOpticalFlow::setFinestScale ( int  val)
pure virtual
Python:
cv.DISOpticalFlow.setFinestScale(val) -> None

Finest level of the Gaussian pyramid on which the flow is computed (zero level corresponds to the original image resolution). The final flow is obtained by bilinear upscaling.

See also
getFinestScale

◆ setGradientDescentIterations()

virtual void cv::DISOpticalFlow::setGradientDescentIterations ( int  val)
pure virtual
Python:
cv.DISOpticalFlow.setGradientDescentIterations(val) -> None

Maximum number of gradient descent iterations in the patch inverse search stage. Higher values may improve quality in some cases.

See also
getGradientDescentIterations

◆ setPatchSize()

virtual void cv::DISOpticalFlow::setPatchSize ( int  val)
pure virtual
Python:
cv.DISOpticalFlow.setPatchSize(val) -> None

Size of an image patch for matching (in pixels). Normally, default 8x8 patches work well enough in most cases.

See also
getPatchSize

◆ setPatchStride()

virtual void cv::DISOpticalFlow::setPatchStride ( int  val)
pure virtual
Python:
cv.DISOpticalFlow.setPatchStride(val) -> None

Stride between neighbor patches. Must be less than patch size. Lower values correspond to higher flow quality.

See also
getPatchStride

◆ setUseMeanNormalization()

virtual void cv::DISOpticalFlow::setUseMeanNormalization ( bool  val)
pure virtual
Python:
cv.DISOpticalFlow.setUseMeanNormalization(val) -> None

Whether to use mean-normalization of patches when computing patch distance. It is turned on by default as it typically provides a noticeable quality boost because of increased robustness to illumination variations. Turn it off if you are certain that your sequence doesn't contain any changes in illumination.

See also
getUseMeanNormalization

◆ setUseSpatialPropagation()

virtual void cv::DISOpticalFlow::setUseSpatialPropagation ( bool  val)
pure virtual
Python:
cv.DISOpticalFlow.setUseSpatialPropagation(val) -> None

Whether to use spatial propagation of good optical flow vectors. This option is turned on by default, as it tends to work better on average and can sometimes help recover from major errors introduced by the coarse-to-fine scheme employed by the DIS optical flow algorithm. Turning this option off can make the output flow field a bit smoother, however.

See also
getUseSpatialPropagation

◆ setVariationalRefinementAlpha()

virtual void cv::DISOpticalFlow::setVariationalRefinementAlpha ( float  val)
pure virtual
Python:
cv.DISOpticalFlow.setVariationalRefinementAlpha(val) -> None

Weight of the smoothness term.

See also
getVariationalRefinementAlpha

◆ setVariationalRefinementDelta()

virtual void cv::DISOpticalFlow::setVariationalRefinementDelta ( float  val)
pure virtual
Python:
cv.DISOpticalFlow.setVariationalRefinementDelta(val) -> None

Weight of the color constancy term.

See also
getVariationalRefinementDelta

◆ setVariationalRefinementEpsilon()

virtual void cv::DISOpticalFlow::setVariationalRefinementEpsilon ( float  val)
pure virtual
Python:
cv.DISOpticalFlow.setVariationalRefinementEpsilon(val) -> None

Norm value shift for robust penalizer.

See also
getVariationalRefinementEpsilon

◆ setVariationalRefinementGamma()

virtual void cv::DISOpticalFlow::setVariationalRefinementGamma ( float  val)
pure virtual
Python:
cv.DISOpticalFlow.setVariationalRefinementGamma(val) -> None

Weight of the gradient constancy term.

See also
getVariationalRefinementGamma

◆ setVariationalRefinementIterations()

virtual void cv::DISOpticalFlow::setVariationalRefinementIterations ( int  val)
pure virtual
Python:
cv.DISOpticalFlow.setVariationalRefinementIterations(val) -> None

Maximum number of gradient descent iterations in the patch inverse search stage. Higher values may improve quality in some cases.

See also
getGradientDescentIterations

The documentation for this class was generated from the following file: