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| virtual double | getEpsilon () const =0 |
| | Stopping criterion threshold used in the numerical scheme, which is a trade-off between precision and running time.
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| virtual double | getGamma () const =0 |
| | coefficient for additional illumination variation term
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| virtual int | getInnerIterations () const =0 |
| | Inner iterations (between outlier filtering) used in the numerical scheme.
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| virtual double | getLambda () const =0 |
| | Weight parameter for the data term, attachment parameter.
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| virtual int | getMedianFiltering () const =0 |
| | Median filter kernel size (1 = no filter) (3 or 5)
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| virtual int | getOuterIterations () const =0 |
| | Outer iterations (number of inner loops) used in the numerical scheme.
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| virtual int | getScalesNumber () const =0 |
| | Number of scales used to create the pyramid of images.
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| virtual double | getScaleStep () const =0 |
| | Step between scales (<1)
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| virtual double | getTau () const =0 |
| | Time step of the numerical scheme.
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| virtual double | getTheta () const =0 |
| | Weight parameter for (u - v)^2, tightness parameter.
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| virtual bool | getUseInitialFlow () const =0 |
| | Use initial flow.
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| virtual int | getWarpingsNumber () const =0 |
| | Number of warpings per scale.
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| virtual void | setEpsilon (double val)=0 |
| | Stopping criterion threshold used in the numerical scheme, which is a trade-off between precision and running time.
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| virtual void | setGamma (double val)=0 |
| | coefficient for additional illumination variation term
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| virtual void | setInnerIterations (int val)=0 |
| | Inner iterations (between outlier filtering) used in the numerical scheme.
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| virtual void | setLambda (double val)=0 |
| | Weight parameter for the data term, attachment parameter.
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| virtual void | setMedianFiltering (int val)=0 |
| | Median filter kernel size (1 = no filter) (3 or 5)
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| virtual void | setOuterIterations (int val)=0 |
| | Outer iterations (number of inner loops) used in the numerical scheme.
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| virtual void | setScalesNumber (int val)=0 |
| | Number of scales used to create the pyramid of images.
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| virtual void | setScaleStep (double val)=0 |
| | Step between scales (<1)
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| virtual void | setTau (double val)=0 |
| | Time step of the numerical scheme.
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| virtual void | setTheta (double val)=0 |
| | Weight parameter for (u - v)^2, tightness parameter.
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| virtual void | setUseInitialFlow (bool val)=0 |
| | Use initial flow.
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| virtual void | setWarpingsNumber (int val)=0 |
| | Number of warpings per scale.
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| virtual void | calc (InputArray I0, InputArray I1, InputOutputArray flow)=0 |
| | Calculates an optical flow.
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| virtual void | collectGarbage ()=0 |
| | Releases all inner buffers.
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| | Algorithm () |
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| virtual | ~Algorithm () |
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| virtual void | clear () |
| | Clears the algorithm state.
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| virtual bool | empty () const |
| | Returns true if the Algorithm is empty (e.g. in the very beginning or after unsuccessful read.
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| virtual String | getDefaultName () const |
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| virtual void | read (const FileNode &fn) |
| | Reads algorithm parameters from a file storage.
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| virtual void | save (const String &filename) const |
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| virtual void | write (FileStorage &fs) const |
| | Stores algorithm parameters in a file storage.
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| void | write (FileStorage &fs, const String &name) const |
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| static Ptr< DualTVL1OpticalFlow > | create (double tau=0.25, double lambda=0.15, double theta=0.3, int nscales=5, int warps=5, double epsilon=0.01, int innnerIterations=30, int outerIterations=10, double scaleStep=0.8, double gamma=0.0, int medianFiltering=5, bool useInitialFlow=false) |
| | Creates instance of cv::DualTVL1OpticalFlow.
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| template<typename _Tp > |
| static Ptr< _Tp > | load (const String &filename, const String &objname=String()) |
| | Loads algorithm from the file.
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| template<typename _Tp > |
| static Ptr< _Tp > | loadFromString (const String &strModel, const String &objname=String()) |
| | Loads algorithm from a String.
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| template<typename _Tp > |
| static Ptr< _Tp > | read (const FileNode &fn) |
| | Reads algorithm from the file node.
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"Dual TV L1" Optical Flow Algorithm.
The class implements the "Dual TV L1" optical flow algorithm described in [315] and [235] . Here are important members of the class that control the algorithm, which you can set after constructing the class instance:
- member double tau Time step of the numerical scheme.
- member double lambda Weight parameter for the data term, attachment parameter. This is the most relevant parameter, which determines the smoothness of the output. The smaller this parameter is, the smoother the solutions we obtain. It depends on the range of motions of the images, so its value should be adapted to each image sequence.
- member double theta Weight parameter for (u - v)\^2, tightness parameter. It serves as a link between the attachment and the regularization terms. In theory, it should have a small value in order to maintain both parts in correspondence. The method is stable for a large range of values of this parameter.
- member int nscales Number of scales used to create the pyramid of images.
- member int warps Number of warpings per scale. Represents the number of times that I1(x+u0) and grad( I1(x+u0) ) are computed per scale. This is a parameter that assures the stability of the method. It also affects the running time, so it is a compromise between speed and accuracy.
- member double epsilon Stopping criterion threshold used in the numerical scheme, which is a trade-off between precision and running time. A small value will yield more accurate solutions at the expense of a slower convergence.
- member int iterations Stopping criterion iterations number used in the numerical scheme.
C. Zach, T. Pock and H. Bischof, "A Duality Based Approach for Realtime TV-L1 Optical Flow". Javier Sanchez, Enric Meinhardt-Llopis and Gabriele Facciolo. "TV-L1 Optical Flow Estimation".
Public Member Functions inherited from cv::DenseOpticalFlow
1.12.0