2010-11-26 18:59:40 +01:00
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#include "opencv2/video/tracking.hpp"
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#include "opencv2/imgproc/imgproc.hpp"
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#include "opencv2/highgui/highgui.hpp"
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2010-05-11 19:44:00 +02:00
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#include <time.h>
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2010-12-03 01:29:27 +01:00
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#include <stdio.h>
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2010-05-11 19:44:00 +02:00
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2010-12-03 01:29:27 +01:00
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void help()
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{
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printf(
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"\nThis program demonstrated the use of motion templates -- basically using the gradients\n"
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"of thresholded layers of decaying frame differencing. New movements are stamped on top with floating system\n"
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"time code and motions too old are thresholded away. This is the 'motion history file'. The program reads from the camera of your choice or from\n"
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"a file. Gradients of motion history are used to detect direction of motoin etc\n"
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"Call:\n"
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"./motempl [camera number 0-n or file name, default is camera 0]\n"
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);
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}
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2010-05-11 19:44:00 +02:00
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// various tracking parameters (in seconds)
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const double MHI_DURATION = 1;
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const double MAX_TIME_DELTA = 0.5;
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const double MIN_TIME_DELTA = 0.05;
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// number of cyclic frame buffer used for motion detection
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// (should, probably, depend on FPS)
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const int N = 4;
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// ring image buffer
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IplImage **buf = 0;
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int last = 0;
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// temporary images
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IplImage *mhi = 0; // MHI
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IplImage *orient = 0; // orientation
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IplImage *mask = 0; // valid orientation mask
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IplImage *segmask = 0; // motion segmentation map
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CvMemStorage* storage = 0; // temporary storage
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// parameters:
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// img - input video frame
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// dst - resultant motion picture
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// args - optional parameters
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void update_mhi( IplImage* img, IplImage* dst, int diff_threshold )
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{
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double timestamp = (double)clock()/CLOCKS_PER_SEC; // get current time in seconds
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CvSize size = cvSize(img->width,img->height); // get current frame size
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int i, idx1 = last, idx2;
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IplImage* silh;
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CvSeq* seq;
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CvRect comp_rect;
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double count;
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double angle;
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CvPoint center;
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double magnitude;
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CvScalar color;
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// allocate images at the beginning or
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// reallocate them if the frame size is changed
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if( !mhi || mhi->width != size.width || mhi->height != size.height ) {
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if( buf == 0 ) {
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buf = (IplImage**)malloc(N*sizeof(buf[0]));
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memset( buf, 0, N*sizeof(buf[0]));
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}
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for( i = 0; i < N; i++ ) {
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cvReleaseImage( &buf[i] );
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buf[i] = cvCreateImage( size, IPL_DEPTH_8U, 1 );
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cvZero( buf[i] );
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}
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cvReleaseImage( &mhi );
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cvReleaseImage( &orient );
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cvReleaseImage( &segmask );
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cvReleaseImage( &mask );
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mhi = cvCreateImage( size, IPL_DEPTH_32F, 1 );
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cvZero( mhi ); // clear MHI at the beginning
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orient = cvCreateImage( size, IPL_DEPTH_32F, 1 );
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segmask = cvCreateImage( size, IPL_DEPTH_32F, 1 );
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mask = cvCreateImage( size, IPL_DEPTH_8U, 1 );
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}
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cvCvtColor( img, buf[last], CV_BGR2GRAY ); // convert frame to grayscale
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idx2 = (last + 1) % N; // index of (last - (N-1))th frame
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last = idx2;
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silh = buf[idx2];
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cvAbsDiff( buf[idx1], buf[idx2], silh ); // get difference between frames
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cvThreshold( silh, silh, diff_threshold, 1, CV_THRESH_BINARY ); // and threshold it
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cvUpdateMotionHistory( silh, mhi, timestamp, MHI_DURATION ); // update MHI
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// convert MHI to blue 8u image
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cvCvtScale( mhi, mask, 255./MHI_DURATION,
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(MHI_DURATION - timestamp)*255./MHI_DURATION );
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cvZero( dst );
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cvMerge( mask, 0, 0, 0, dst );
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// calculate motion gradient orientation and valid orientation mask
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cvCalcMotionGradient( mhi, mask, orient, MAX_TIME_DELTA, MIN_TIME_DELTA, 3 );
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if( !storage )
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storage = cvCreateMemStorage(0);
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else
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cvClearMemStorage(storage);
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// segment motion: get sequence of motion components
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// segmask is marked motion components map. It is not used further
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seq = cvSegmentMotion( mhi, segmask, storage, timestamp, MAX_TIME_DELTA );
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// iterate through the motion components,
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// One more iteration (i == -1) corresponds to the whole image (global motion)
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for( i = -1; i < seq->total; i++ ) {
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if( i < 0 ) { // case of the whole image
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comp_rect = cvRect( 0, 0, size.width, size.height );
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color = CV_RGB(255,255,255);
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magnitude = 100;
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}
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else { // i-th motion component
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comp_rect = ((CvConnectedComp*)cvGetSeqElem( seq, i ))->rect;
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if( comp_rect.width + comp_rect.height < 100 ) // reject very small components
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continue;
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color = CV_RGB(255,0,0);
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magnitude = 30;
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}
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// select component ROI
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cvSetImageROI( silh, comp_rect );
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cvSetImageROI( mhi, comp_rect );
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cvSetImageROI( orient, comp_rect );
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cvSetImageROI( mask, comp_rect );
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// calculate orientation
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angle = cvCalcGlobalOrientation( orient, mask, mhi, timestamp, MHI_DURATION);
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angle = 360.0 - angle; // adjust for images with top-left origin
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count = cvNorm( silh, 0, CV_L1, 0 ); // calculate number of points within silhouette ROI
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cvResetImageROI( mhi );
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cvResetImageROI( orient );
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cvResetImageROI( mask );
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cvResetImageROI( silh );
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// check for the case of little motion
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if( count < comp_rect.width*comp_rect.height * 0.05 )
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continue;
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// draw a clock with arrow indicating the direction
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center = cvPoint( (comp_rect.x + comp_rect.width/2),
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(comp_rect.y + comp_rect.height/2) );
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cvCircle( dst, center, cvRound(magnitude*1.2), color, 3, CV_AA, 0 );
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cvLine( dst, center, cvPoint( cvRound( center.x + magnitude*cos(angle*CV_PI/180)),
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cvRound( center.y - magnitude*sin(angle*CV_PI/180))), color, 3, CV_AA, 0 );
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}
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}
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int main(int argc, char** argv)
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{
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IplImage* motion = 0;
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CvCapture* capture = 0;
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2010-12-03 01:29:27 +01:00
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help();
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2010-05-11 19:44:00 +02:00
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if( argc == 1 || (argc == 2 && strlen(argv[1]) == 1 && isdigit(argv[1][0])))
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capture = cvCaptureFromCAM( argc == 2 ? argv[1][0] - '0' : 0 );
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else if( argc == 2 )
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capture = cvCaptureFromFile( argv[1] );
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if( capture )
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{
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cvNamedWindow( "Motion", 1 );
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for(;;)
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{
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IplImage* image = cvQueryFrame( capture );
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if( !image )
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break;
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if( !motion )
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{
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motion = cvCreateImage( cvSize(image->width,image->height), 8, 3 );
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cvZero( motion );
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motion->origin = image->origin;
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}
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update_mhi( image, motion, 30 );
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cvShowImage( "Motion", motion );
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if( cvWaitKey(10) >= 0 )
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break;
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}
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cvReleaseCapture( &capture );
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cvDestroyWindow( "Motion" );
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}
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return 0;
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}
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#ifdef _EiC
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main(1,"motempl.c");
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#endif
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