Renesas
openCV library for Renesas RZ/A
Dependents: RZ_A2M_Mbed_samples
Diff: include/opencv2/stitching/detail/motion_estimators.hpp
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- 0:0e0631af0305
--- /dev/null Thu Jan 01 00:00:00 1970 +0000
+++ b/include/opencv2/stitching/detail/motion_estimators.hpp Fri Jan 29 04:53:38 2021 +0000
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+/*M///////////////////////////////////////////////////////////////////////////////////////
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+// copy or use the software.
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+//
+// License Agreement
+// For Open Source Computer Vision Library
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+//M*/
+
+#ifndef OPENCV_STITCHING_MOTION_ESTIMATORS_HPP
+#define OPENCV_STITCHING_MOTION_ESTIMATORS_HPP
+
+#include "opencv2/core.hpp"
+#include "matchers.hpp"
+#include "util.hpp"
+#include "camera.hpp"
+
+namespace cv {
+namespace detail {
+
+//! @addtogroup stitching_rotation
+//! @{
+
+/** @brief Rotation estimator base class.
+
+It takes features of all images, pairwise matches between all images and estimates rotations of all
+cameras.
+
+@note The coordinate system origin is implementation-dependent, but you can always normalize the
+rotations in respect to the first camera, for instance. :
+ */
+class CV_EXPORTS Estimator
+{
+public:
+ virtual ~Estimator() {}
+
+ /** @brief Estimates camera parameters.
+
+ @param features Features of images
+ @param pairwise_matches Pairwise matches of images
+ @param cameras Estimated camera parameters
+ @return True in case of success, false otherwise
+ */
+ bool operator ()(const std::vector<ImageFeatures> &features,
+ const std::vector<MatchesInfo> &pairwise_matches,
+ std::vector<CameraParams> &cameras)
+ { return estimate(features, pairwise_matches, cameras); }
+
+protected:
+ /** @brief This method must implement camera parameters estimation logic in order to make the wrapper
+ detail::Estimator::operator()_ work.
+
+ @param features Features of images
+ @param pairwise_matches Pairwise matches of images
+ @param cameras Estimated camera parameters
+ @return True in case of success, false otherwise
+ */
+ virtual bool estimate(const std::vector<ImageFeatures> &features,
+ const std::vector<MatchesInfo> &pairwise_matches,
+ std::vector<CameraParams> &cameras) = 0;
+};
+
+/** @brief Homography based rotation estimator.
+ */
+class CV_EXPORTS HomographyBasedEstimator : public Estimator
+{
+public:
+ HomographyBasedEstimator(bool is_focals_estimated = false)
+ : is_focals_estimated_(is_focals_estimated) {}
+
+private:
+ virtual bool estimate(const std::vector<ImageFeatures> &features,
+ const std::vector<MatchesInfo> &pairwise_matches,
+ std::vector<CameraParams> &cameras);
+
+ bool is_focals_estimated_;
+};
+
+/** @brief Affine transformation based estimator.
+
+This estimator uses pairwise tranformations estimated by matcher to estimate
+final transformation for each camera.
+
+@sa cv::detail::HomographyBasedEstimator
+ */
+class CV_EXPORTS AffineBasedEstimator : public Estimator
+{
+private:
+ virtual bool estimate(const std::vector<ImageFeatures> &features,
+ const std::vector<MatchesInfo> &pairwise_matches,
+ std::vector<CameraParams> &cameras);
+};
+
+/** @brief Base class for all camera parameters refinement methods.
+ */
+class CV_EXPORTS BundleAdjusterBase : public Estimator
+{
+public:
+ const Mat refinementMask() const { return refinement_mask_.clone(); }
+ void setRefinementMask(const Mat &mask)
+ {
+ CV_Assert(mask.type() == CV_8U && mask.size() == Size(3, 3));
+ refinement_mask_ = mask.clone();
+ }
+
+ double confThresh() const { return conf_thresh_; }
+ void setConfThresh(double conf_thresh) { conf_thresh_ = conf_thresh; }
+
+ TermCriteria termCriteria() { return term_criteria_; }
+ void setTermCriteria(const TermCriteria& term_criteria) { term_criteria_ = term_criteria; }
+
+protected:
+ /** @brief Construct a bundle adjuster base instance.
+
+ @param num_params_per_cam Number of parameters per camera
+ @param num_errs_per_measurement Number of error terms (components) per match
+ */
+ BundleAdjusterBase(int num_params_per_cam, int num_errs_per_measurement)
+ : num_params_per_cam_(num_params_per_cam),
+ num_errs_per_measurement_(num_errs_per_measurement)
+ {
+ setRefinementMask(Mat::ones(3, 3, CV_8U));
+ setConfThresh(1.);
+ setTermCriteria(TermCriteria(TermCriteria::EPS + TermCriteria::COUNT, 1000, DBL_EPSILON));
+ }
+
+ // Runs bundle adjustment
+ virtual bool estimate(const std::vector<ImageFeatures> &features,
+ const std::vector<MatchesInfo> &pairwise_matches,
+ std::vector<CameraParams> &cameras);
+
+ /** @brief Sets initial camera parameter to refine.
+
+ @param cameras Camera parameters
+ */
+ virtual void setUpInitialCameraParams(const std::vector<CameraParams> &cameras) = 0;
+ /** @brief Gets the refined camera parameters.
+
+ @param cameras Refined camera parameters
+ */
+ virtual void obtainRefinedCameraParams(std::vector<CameraParams> &cameras) const = 0;
+ /** @brief Calculates error vector.
+
+ @param err Error column-vector of length total_num_matches \* num_errs_per_measurement
+ */
+ virtual void calcError(Mat &err) = 0;
+ /** @brief Calculates the cost function jacobian.
+
+ @param jac Jacobian matrix of dimensions
+ (total_num_matches \* num_errs_per_measurement) x (num_images \* num_params_per_cam)
+ */
+ virtual void calcJacobian(Mat &jac) = 0;
+
+ // 3x3 8U mask, where 0 means don't refine respective parameter, != 0 means refine
+ Mat refinement_mask_;
+
+ int num_images_;
+ int total_num_matches_;
+
+ int num_params_per_cam_;
+ int num_errs_per_measurement_;
+
+ const ImageFeatures *features_;
+ const MatchesInfo *pairwise_matches_;
+
+ // Threshold to filter out poorly matched image pairs
+ double conf_thresh_;
+
+ //Levenberg–Marquardt algorithm termination criteria
+ TermCriteria term_criteria_;
+
+ // Camera parameters matrix (CV_64F)
+ Mat cam_params_;
+
+ // Connected images pairs
+ std::vector<std::pair<int,int> > edges_;
+};
+
+
+/** @brief Stub bundle adjuster that does nothing.
+ */
+class CV_EXPORTS NoBundleAdjuster : public BundleAdjusterBase
+{
+public:
+ NoBundleAdjuster() : BundleAdjusterBase(0, 0) {}
+
+private:
+ bool estimate(const std::vector<ImageFeatures> &, const std::vector<MatchesInfo> &,
+ std::vector<CameraParams> &)
+ {
+ return true;
+ }
+ void setUpInitialCameraParams(const std::vector<CameraParams> &) {}
+ void obtainRefinedCameraParams(std::vector<CameraParams> &) const {}
+ void calcError(Mat &) {}
+ void calcJacobian(Mat &) {}
+};
+
+
+/** @brief Implementation of the camera parameters refinement algorithm which minimizes sum of the reprojection
+error squares
+
+It can estimate focal length, aspect ratio, principal point.
+You can affect only on them via the refinement mask.
+ */
+class CV_EXPORTS BundleAdjusterReproj : public BundleAdjusterBase
+{
+public:
+ BundleAdjusterReproj() : BundleAdjusterBase(7, 2) {}
+
+private:
+ void setUpInitialCameraParams(const std::vector<CameraParams> &cameras);
+ void obtainRefinedCameraParams(std::vector<CameraParams> &cameras) const;
+ void calcError(Mat &err);
+ void calcJacobian(Mat &jac);
+
+ Mat err1_, err2_;
+};
+
+
+/** @brief Implementation of the camera parameters refinement algorithm which minimizes sum of the distances
+between the rays passing through the camera center and a feature. :
+
+It can estimate focal length. It ignores the refinement mask for now.
+ */
+class CV_EXPORTS BundleAdjusterRay : public BundleAdjusterBase
+{
+public:
+ BundleAdjusterRay() : BundleAdjusterBase(4, 3) {}
+
+private:
+ void setUpInitialCameraParams(const std::vector<CameraParams> &cameras);
+ void obtainRefinedCameraParams(std::vector<CameraParams> &cameras) const;
+ void calcError(Mat &err);
+ void calcJacobian(Mat &jac);
+
+ Mat err1_, err2_;
+};
+
+
+/** @brief Bundle adjuster that expects affine transformation
+represented in homogeneous coordinates in R for each camera param. Implements
+camera parameters refinement algorithm which minimizes sum of the reprojection
+error squares
+
+It estimates all transformation parameters. Refinement mask is ignored.
+
+@sa AffineBasedEstimator AffineBestOf2NearestMatcher BundleAdjusterAffinePartial
+ */
+class CV_EXPORTS BundleAdjusterAffine : public BundleAdjusterBase
+{
+public:
+ BundleAdjusterAffine() : BundleAdjusterBase(6, 2) {}
+
+private:
+ void setUpInitialCameraParams(const std::vector<CameraParams> &cameras);
+ void obtainRefinedCameraParams(std::vector<CameraParams> &cameras) const;
+ void calcError(Mat &err);
+ void calcJacobian(Mat &jac);
+
+ Mat err1_, err2_;
+};
+
+
+/** @brief Bundle adjuster that expects affine transformation with 4 DOF
+represented in homogeneous coordinates in R for each camera param. Implements
+camera parameters refinement algorithm which minimizes sum of the reprojection
+error squares
+
+It estimates all transformation parameters. Refinement mask is ignored.
+
+@sa AffineBasedEstimator AffineBestOf2NearestMatcher BundleAdjusterAffine
+ */
+class CV_EXPORTS BundleAdjusterAffinePartial : public BundleAdjusterBase
+{
+public:
+ BundleAdjusterAffinePartial() : BundleAdjusterBase(4, 2) {}
+
+private:
+ void setUpInitialCameraParams(const std::vector<CameraParams> &cameras);
+ void obtainRefinedCameraParams(std::vector<CameraParams> &cameras) const;
+ void calcError(Mat &err);
+ void calcJacobian(Mat &jac);
+
+ Mat err1_, err2_;
+};
+
+
+enum WaveCorrectKind
+{
+ WAVE_CORRECT_HORIZ,
+ WAVE_CORRECT_VERT
+};
+
+/** @brief Tries to make panorama more horizontal (or vertical).
+
+@param rmats Camera rotation matrices.
+@param kind Correction kind, see detail::WaveCorrectKind.
+ */
+void CV_EXPORTS waveCorrect(std::vector<Mat> &rmats, WaveCorrectKind kind);
+
+
+//////////////////////////////////////////////////////////////////////////////
+// Auxiliary functions
+
+// Returns matches graph representation in DOT language
+String CV_EXPORTS matchesGraphAsString(std::vector<String> &pathes, std::vector<MatchesInfo> &pairwise_matches,
+ float conf_threshold);
+
+std::vector<int> CV_EXPORTS leaveBiggestComponent(
+ std::vector<ImageFeatures> &features,
+ std::vector<MatchesInfo> &pairwise_matches,
+ float conf_threshold);
+
+void CV_EXPORTS findMaxSpanningTree(
+ int num_images, const std::vector<MatchesInfo> &pairwise_matches,
+ Graph &span_tree, std::vector<int> ¢ers);
+
+//! @} stitching_rotation
+
+} // namespace detail
+} // namespace cv
+
+#endif // OPENCV_STITCHING_MOTION_ESTIMATORS_HPP