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271 lines
7.8 KiB
ReStructuredText
271 lines
7.8 KiB
ReStructuredText
Feature detection and description
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=================================
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.. highlight:: c
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* **image** The image. Keypoints (corners) will be detected on this.
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* **keypoints** Keypoints detected on the image.
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* **threshold** Threshold on difference between intensity of center pixel and
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pixels on circle around this pixel. See description of the algorithm.
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* **nonmaxSupression** If it is true then non-maximum supression will be applied to detected corners (keypoints).
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.. index:: ExtractSURF
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.. _ExtractSURF:
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ExtractSURF
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-----------
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.. cfunction:: void cvExtractSURF( const CvArr* image, const CvArr* mask, CvSeq** keypoints, CvSeq** descriptors, CvMemStorage* storage, CvSURFParams params )
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Extracts Speeded Up Robust Features from an image.
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:param image: The input 8-bit grayscale image
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:param mask: The optional input 8-bit mask. The features are only found in the areas that contain more than 50 % of non-zero mask pixels
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:param keypoints: The output parameter; double pointer to the sequence of keypoints. The sequence of CvSURFPoint structures is as follows:
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::
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typedef struct CvSURFPoint
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{
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CvPoint2D32f pt; // position of the feature within the image
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int laplacian; // -1, 0 or +1. sign of the laplacian at the point.
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// can be used to speedup feature comparison
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// (normally features with laplacians of different
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// signs can not match)
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int size; // size of the feature
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float dir; // orientation of the feature: 0..360 degrees
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float hessian; // value of the hessian (can be used to
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// approximately estimate the feature strengths;
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// see also params.hessianThreshold)
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}
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CvSURFPoint;
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..
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:param descriptors: The optional output parameter; double pointer to the sequence of descriptors. Depending on the params.extended value, each element of the sequence will be either a 64-element or a 128-element floating-point ( ``CV_32F`` ) vector. If the parameter is NULL, the descriptors are not computed
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:param storage: Memory storage where keypoints and descriptors will be stored
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:param params: Various algorithm parameters put to the structure CvSURFParams:
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::
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typedef struct CvSURFParams
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{
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int extended; // 0 means basic descriptors (64 elements each),
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// 1 means extended descriptors (128 elements each)
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double hessianThreshold; // only features with keypoint.hessian
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// larger than that are extracted.
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// good default value is ~300-500 (can depend on the
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// average local contrast and sharpness of the image).
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// user can further filter out some features based on
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// their hessian values and other characteristics.
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int nOctaves; // the number of octaves to be used for extraction.
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// With each next octave the feature size is doubled
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// (3 by default)
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int nOctaveLayers; // The number of layers within each octave
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// (4 by default)
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}
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CvSURFParams;
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CvSURFParams cvSURFParams(double hessianThreshold, int extended=0);
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// returns default parameters
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..
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The function cvExtractSURF finds robust features in the image, as
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described in
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Bay06
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. For each feature it returns its location, size,
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orientation and optionally the descriptor, basic or extended. The function
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can be used for object tracking and localization, image stitching etc.
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See the
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``find_obj.cpp``
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demo in OpenCV samples directory.
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.. index:: GetStarKeypoints
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.. _GetStarKeypoints:
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GetStarKeypoints
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----------------
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.. cfunction:: CvSeq* cvGetStarKeypoints( const CvArr* image, CvMemStorage* storage, CvStarDetectorParams params=cvStarDetectorParams() )
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Retrieves keypoints using the StarDetector algorithm.
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:param image: The input 8-bit grayscale image
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:param storage: Memory storage where the keypoints will be stored
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:param params: Various algorithm parameters given to the structure CvStarDetectorParams:
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::
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typedef struct CvStarDetectorParams
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{
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int maxSize; // maximal size of the features detected. The following
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// values of the parameter are supported:
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// 4, 6, 8, 11, 12, 16, 22, 23, 32, 45, 46, 64, 90, 128
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int responseThreshold; // threshold for the approximatd laplacian,
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// used to eliminate weak features
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int lineThresholdProjected; // another threshold for laplacian to
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// eliminate edges
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int lineThresholdBinarized; // another threshold for the feature
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// scale to eliminate edges
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int suppressNonmaxSize; // linear size of a pixel neighborhood
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// for non-maxima suppression
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}
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CvStarDetectorParams;
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..
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The function GetStarKeypoints extracts keypoints that are local
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scale-space extremas. The scale-space is constructed by computing
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approximate values of laplacians with different sigma's at each
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pixel. Instead of using pyramids, a popular approach to save computing
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time, all of the laplacians are computed at each pixel of the original
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high-resolution image. But each approximate laplacian value is computed
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in O(1) time regardless of the sigma, thanks to the use of integral
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images. The algorithm is based on the paper
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Agrawal08
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, but instead
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of a square, hexagon or octagon it uses an 8-end star shape, hence the name,
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consisting of overlapping upright and tilted squares.
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Each computed feature is represented by the following structure:
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::
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typedef struct CvStarKeypoint
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{
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CvPoint pt; // coordinates of the feature
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int size; // feature size, see CvStarDetectorParams::maxSize
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float response; // the approximated laplacian value at that point.
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}
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CvStarKeypoint;
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inline CvStarKeypoint cvStarKeypoint(CvPoint pt, int size, float response);
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..
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Below is the small usage sample:
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::
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#include "cv.h"
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#include "highgui.h"
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int main(int argc, char** argv)
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{
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const char* filename = argc > 1 ? argv[1] : "lena.jpg";
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IplImage* img = cvLoadImage( filename, 0 ), *cimg;
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CvMemStorage* storage = cvCreateMemStorage(0);
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CvSeq* keypoints = 0;
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int i;
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if( !img )
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return 0;
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cvNamedWindow( "image", 1 );
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cvShowImage( "image", img );
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cvNamedWindow( "features", 1 );
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cimg = cvCreateImage( cvGetSize(img), 8, 3 );
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cvCvtColor( img, cimg, CV_GRAY2BGR );
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keypoints = cvGetStarKeypoints( img, storage, cvStarDetectorParams(45) );
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for( i = 0; i < (keypoints ? keypoints->total : 0); i++ )
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{
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CvStarKeypoint kpt = *(CvStarKeypoint*)cvGetSeqElem(keypoints, i);
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int r = kpt.size/2;
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cvCircle( cimg, kpt.pt, r, CV_RGB(0,255,0));
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cvLine( cimg, cvPoint(kpt.pt.x + r, kpt.pt.y + r),
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cvPoint(kpt.pt.x - r, kpt.pt.y - r), CV_RGB(0,255,0));
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cvLine( cimg, cvPoint(kpt.pt.x - r, kpt.pt.y + r),
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cvPoint(kpt.pt.x + r, kpt.pt.y - r), CV_RGB(0,255,0));
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}
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cvShowImage( "features", cimg );
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cvWaitKey();
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}
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..
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