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"Efficient Belief Propagation for Early Vision" P.Felzenszwalb class CV_EXPORTS StereoBeliefPropagation : public cv::StereoMatcher { public: using cv::StereoMatcher::compute; virtual void compute(InputArray left, InputArray right, OutputArray disparity, Stream& stream) = 0; //! version for user specified data term virtual void compute(InputArray data, OutputArray disparity, Stream& stream = Stream::Null()) = 0; //! number of BP iterations on each level virtual int getNumIters() const = 0; virtual void setNumIters(int iters) = 0; //! number of levels virtual int getNumLevels() const = 0; virtual void setNumLevels(int levels) = 0; //! truncation of data cost virtual double getMaxDataTerm() const = 0; virtual void setMaxDataTerm(double max_data_term) = 0; //! data weight virtual double getDataWeight() const = 0; virtual void setDataWeight(double data_weight) = 0; //! truncation of discontinuity cost virtual double getMaxDiscTerm() const = 0; virtual void setMaxDiscTerm(double max_disc_term) = 0; //! discontinuity single jump virtual double getDiscSingleJump() const = 0; virtual void setDiscSingleJump(double disc_single_jump) = 0; //! type for messages (CV_16SC1 or CV_32FC1) virtual int getMsgType() const = 0; virtual void setMsgType(int msg_type) = 0; static void estimateRecommendedParams(int width, int height, int& ndisp, int& iters, int& levels); }; CV_EXPORTS Ptr createStereoBeliefPropagation(int ndisp = 64, int iters = 5, int levels = 5, int msg_type = CV_32F); ///////////////////////////////////////// // StereoConstantSpaceBP //! "A Constant-Space Belief Propagation Algorithm for Stereo Matching" //! Qingxiong Yang, Liang Wang, Narendra Ahuja //! http://vision.ai.uiuc.edu/~qyang6/ class CV_EXPORTS StereoConstantSpaceBP : public cuda::StereoBeliefPropagation { public: //! number of active disparity on the first level virtual int getNrPlane() const = 0; virtual void setNrPlane(int nr_plane) = 0; virtual bool getUseLocalInitDataCost() const = 0; virtual void setUseLocalInitDataCost(bool use_local_init_data_cost) = 0; static void estimateRecommendedParams(int width, int height, int& ndisp, int& iters, int& levels, int& nr_plane); }; CV_EXPORTS Ptr createStereoConstantSpaceBP(int ndisp = 128, int iters = 8, int levels = 4, int nr_plane = 4, int msg_type = CV_32F); ///////////////////////////////////////// // DisparityBilateralFilter //! Disparity map refinement using joint bilateral filtering given a single color image. //! Qingxiong Yang, Liang Wang, Narendra Ahuja //! http://vision.ai.uiuc.edu/~qyang6/ class CV_EXPORTS DisparityBilateralFilter : public cv::Algorithm { public: //! the disparity map refinement operator. Refine disparity map using joint bilateral filtering given a single color image. //! disparity must have CV_8U or CV_16S type, image must have CV_8UC1 or CV_8UC3 type. virtual void apply(InputArray disparity, InputArray image, OutputArray dst, Stream& stream = Stream::Null()) = 0; virtual int getNumDisparities() const = 0; virtual void setNumDisparities(int numDisparities) = 0; virtual int getRadius() const = 0; virtual void setRadius(int radius) = 0; virtual int getNumIters() const = 0; virtual void setNumIters(int iters) = 0; //! truncation of data continuity virtual double getEdgeThreshold() const = 0; virtual void setEdgeThreshold(double edge_threshold) = 0; //! truncation of disparity continuity virtual double getMaxDiscThreshold() const = 0; virtual void setMaxDiscThreshold(double max_disc_threshold) = 0; //! filter range sigma virtual double getSigmaRange() const = 0; virtual void setSigmaRange(double sigma_range) = 0; }; CV_EXPORTS Ptr createDisparityBilateralFilter(int ndisp = 64, int radius = 3, int iters = 1); ///////////////////////////////////////// // Utility //! Reprojects disparity image to 3D space. //! Supports CV_8U and CV_16S types of input disparity. //! The output is a 3- or 4-channel floating-point matrix. //! Each element of this matrix will contain the 3D coordinates of the point (x,y,z,1), computed from the disparity map. //! Q is the 4x4 perspective transformation matrix that can be obtained with cvStereoRectify. CV_EXPORTS void reprojectImageTo3D(InputArray disp, OutputArray xyzw, InputArray Q, int dst_cn = 4, Stream& stream = Stream::Null()); //! Does coloring of disparity image: [0..ndisp) -> [0..240, 1, 1] in HSV. //! Supported types of input disparity: CV_8U, CV_16S. //! Output disparity has CV_8UC4 type in BGRA format (alpha = 255). CV_EXPORTS void drawColorDisp(InputArray src_disp, OutputArray dst_disp, int ndisp, Stream& stream = Stream::Null()); }} // namespace cv { namespace cuda { #endif /* __OPENCV_CUDASTEREO_HPP__ */