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/**
* @file pcaflow.hpp
* @author Vladislav Samsonov <vvladxx@gmail.com>
* @brief Implementation of the PCAFlow algorithm from the following paper:
* http://files.is.tue.mpg.de/black/papers/cvpr2015_pcaflow.pdf
*
* @cite Wulff:CVPR:2015
*
* There are some key differences which distinguish this algorithm from the original PCAFlow (see paper):
* - Discrete Cosine Transform basis is used instead of basis extracted with PCA.
* Reasoning: DCT basis has comparable performance and it doesn't require additional storage space.
* Also, this decision helps to avoid overloading the algorithm with a lot of external input.
* - Usage of built-in OpenCV feature tracking instead of libviso.
*/
#ifndef __OPENCV_OPTFLOW_PCAFLOW_HPP__
#define __OPENCV_OPTFLOW_PCAFLOW_HPP__
#include "opencv2/core.hpp"
#include "opencv2/video.hpp"
namespace cv
{
namespace optflow
{
//! @addtogroup optflow
//! @{
/** @brief
* This class can be used for imposing a learned prior on the resulting optical flow.
* Solution will be regularized according to this prior.
* You need to generate appropriate prior file with "learn_prior.py" script beforehand.
*/
class CV_EXPORTS_W PCAPrior
{
private:
Mat L1;
Mat L2;
Mat c1;
Mat c2;
public:
PCAPrior( const char *pathToPrior );
int getPadding() const { return L1.size().height; }
int getBasisSize() const { return L1.size().width; }
void fillConstraints( float *A1, float *A2, float *b1, float *b2 ) const;
};
/** @brief PCAFlow algorithm.
*/
class CV_EXPORTS_W OpticalFlowPCAFlow : public DenseOpticalFlow
{
protected:
const Ptr<const PCAPrior> prior;
const Size basisSize;
const float sparseRate; // (0 .. 0.1)
const float retainedCornersFraction; // [0 .. 1]
const float occlusionsThreshold;
const float dampingFactor;
const float claheClip;
bool useOpenCL;
public:
/** @brief Creates an instance of PCAFlow algorithm.
* @param _prior Learned prior or no prior (default). @see cv::optflow::PCAPrior
* @param _basisSize Number of basis vectors.
* @param _sparseRate Controls density of sparse matches.
* @param _retainedCornersFraction Retained corners fraction.
* @param _occlusionsThreshold Occlusion threshold.
* @param _dampingFactor Regularization term for solving least-squares. It is not related to the prior regularization.
* @param _claheClip Clip parameter for CLAHE.
*/
OpticalFlowPCAFlow( Ptr<const PCAPrior> _prior = Ptr<const PCAPrior>(), const Size _basisSize = Size( 18, 14 ),
float _sparseRate = 0.024, float _retainedCornersFraction = 0.2,
float _occlusionsThreshold = 0.0003, float _dampingFactor = 0.00002, float _claheClip = 14 );
void calc( InputArray I0, InputArray I1, InputOutputArray flow );
void collectGarbage();
private:
void findSparseFeatures( UMat &from, UMat &to, std::vector<Point2f> &features,
std::vector<Point2f> &predictedFeatures ) const;
void removeOcclusions( UMat &from, UMat &to, std::vector<Point2f> &features,
std::vector<Point2f> &predictedFeatures ) const;
void getSystem( OutputArray AOut, OutputArray b1Out, OutputArray b2Out, const std::vector<Point2f> &features,
const std::vector<Point2f> &predictedFeatures, const Size size );
void getSystem( OutputArray A1Out, OutputArray A2Out, OutputArray b1Out, OutputArray b2Out,
const std::vector<Point2f> &features, const std::vector<Point2f> &predictedFeatures,
const Size size );
OpticalFlowPCAFlow& operator=( const OpticalFlowPCAFlow& ); // make it non-assignable
};
/** @brief Creates an instance of PCAFlow
*/
CV_EXPORTS_W Ptr<DenseOpticalFlow> createOptFlow_PCAFlow();
//! @}
}
}
#endif
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