Feature Detection and Description ================================= SIFT ---- .. ocv:class:: SIFT : public Feature2D Class for extracting keypoints and computing descriptors using the Scale Invariant Feature Transform (SIFT) algorithm by D. Lowe [Lowe04]_. .. [Lowe04] Lowe, D. G., “Distinctive Image Features from Scale-Invariant Keypoints”, International Journal of Computer Vision, 60, 2, pp. 91-110, 2004. SIFT::SIFT ---------- The SIFT constructors. .. ocv:function:: SIFT::SIFT( int nfeatures=0, int nOctaveLayers=3, double contrastThreshold=0.04, double edgeThreshold=10, double sigma=1.6) :param nfeatures: The number of best features to retain. The features are ranked by their scores (measured in SIFT algorithm as the local contrast) :param nOctaveLayers: The number of layers in each octave. 3 is the value used in D. Lowe paper. The number of octaves is computed automatically from the image resolution. :param contrastThreshold: The contrast threshold used to filter out weak features in semi-uniform (low-contrast) regions. The larger the threshold, the less features are produced by the detector. :param edgeThreshold: The threshold used to filter out edge-like features. Note that the its meaning is different from the contrastThreshold, i.e. the larger the ``edgeThreshold``, the less features are filtered out (more features are retained). :param sigma: The sigma of the Gaussian applied to the input image at the octave #0. If your image is captured with a weak camera with soft lenses, you might want to reduce the number. SIFT::operator () ----------------- Extract features and computes their descriptors using SIFT algorithm .. ocv:function:: void SIFT::operator()(InputArray img, InputArray mask, vector& keypoints, OutputArray descriptors, bool useProvidedKeypoints=false) :param img: Input 8-bit grayscale image :param mask: Optional input mask that marks the regions where we should detect features. :param keypoints: The input/output vector of keypoints :param descriptors: The output matrix of descriptors. Pass ``cv::noArray()`` if you do not need them. :param useProvidedKeypoints: Boolean flag. If it is true, the keypoint detector is not run. Instead, the provided vector of keypoints is used and the algorithm just computes their descriptors. SURF ---- .. ocv:class:: SURF : public Feature2D Class for extracting Speeded Up Robust Features from an image [Bay06]_. The class is derived from ``CvSURFParams`` structure, which specifies the algorithm parameters: .. ocv:member:: int extended * 0 means that the basic descriptors (64 elements each) shall be computed * 1 means that the extended descriptors (128 elements each) shall be computed .. ocv:member:: int upright * 0 means that detector computes orientation of each feature. * 1 means that the orientation is not computed (which is much, much faster). For example, if you match images from a stereo pair, or do image stitching, the matched features likely have very similar angles, and you can speed up feature extraction by setting ``upright=1``. .. ocv:member:: double hessianThreshold Threshold for the keypoint detector. Only features, whose hessian is larger than ``hessianThreshold`` are retained by the detector. Therefore, the larger the value, the less keypoints you will get. A good default value could be from 300 to 500, depending from the image contrast. .. ocv:member:: int nOctaves The number of a gaussian pyramid octaves that the detector uses. It is set to 4 by default. If you want to get very large features, use the larger value. If you want just small features, decrease it. .. ocv:member:: int nOctaveLayers The number of images within each octave of a gaussian pyramid. It is set to 2 by default. .. [Bay06] Bay, H. and Tuytelaars, T. and Van Gool, L. "SURF: Speeded Up Robust Features", 9th European Conference on Computer Vision, 2006 SURF::SURF ---------- The SURF extractor constructors. .. ocv:function:: SURF::SURF() .. ocv:function:: SURF::SURF( double hessianThreshold, int nOctaves=4, int nOctaveLayers=2, bool extended=true, bool upright=false ) .. ocv:pyfunction:: cv2.SURF([hessianThreshold[, nOctaves[, nOctaveLayers[, extended[, upright]]]]]) -> :param hessianThreshold: Threshold for hessian keypoint detector used in SURF. :param nOctaves: Number of pyramid octaves the keypoint detector will use. :param nOctaveLayers: Number of octave layers within each octave. :param extended: Extended descriptor flag (true - use extended 128-element descriptors; false - use 64-element descriptors). :param upright: Up-right or rotated features flag (true - do not compute orientation of features; false - compute orientation). SURF::operator() ---------------- Detects keypoints and computes SURF descriptors for them. .. ocv:function:: void SURF::operator()(InputArray img, InputArray mask, vector& keypoints) const .. ocv:function:: void SURF::operator()(InputArray img, InputArray mask, vector& keypoints, OutputArray descriptors, bool useProvidedKeypoints=false) .. ocv:pyfunction:: cv2.SURF.detect(img, mask) -> keypoints .. ocv:pyfunction:: cv2.SURF.detect(img, mask[, descriptors[, useProvidedKeypoints]]) -> keypoints, descriptors .. ocv:cfunction:: void cvExtractSURF( const CvArr* image, const CvArr* mask, CvSeq** keypoints, CvSeq** descriptors, CvMemStorage* storage, CvSURFParams params ) .. ocv:pyoldfunction:: cv.ExtractSURF(image, mask, storage, params)-> (keypoints, descriptors) :param image: Input 8-bit grayscale image :param mask: Optional input mask that marks the regions where we should detect features. :param keypoints: The input/output vector of keypoints :param descriptors: The output matrix of descriptors. Pass ``cv::noArray()`` if you do not need them. :param useProvidedKeypoints: Boolean flag. If it is true, the keypoint detector is not run. Instead, the provided vector of keypoints is used and the algorithm just computes their descriptors. :param storage: Memory storage for the output keypoints and descriptors in OpenCV 1.x API. :param params: SURF algorithm parameters in OpenCV 1.x API. The function is parallelized with the TBB library.