Esempio n. 1
0
std::vector<cv::Rect> hogDetection(cv::Mat sequence, cv::HOGDescriptor hog)
{
    std::vector<cv::Rect> found;

    hog.detectMultiScale(sequence, found, 0, cv::Size(8,8), cv::Size(32,32), 1.05, 2);

    return found;
}
Esempio n. 2
0
int process_image(cv::Mat & input_img) {
  std::vector<cv::Rect> found_rectangles;
  hog.detectMultiScale(input_img, found_rectangles);
  for (unsigned int rec_idx = 0; rec_idx < found_rectangles.size(); ++rec_idx)
    cv::rectangle(input_img, found_rectangles[rec_idx], CV_RGB(255,0,0), 2);
  cv::imwrite("input_img.png", input_img);
  cv::imshow("input_img", input_img);
} // end process_image()
void peopleDetectApp::update()
{
    
    if( getElapsedFrames() % 30 == 0 )
    {
        if(stillSurface) {
            //cv::Mat newFrame = toOcv( Channel( capture.getSurface() )); // capture the frame
            cv::Mat newFrame = toOcv( Channel(stillSurface));
            
            vector<cv::Rect> found, found_filtered;
            // run the detector with default parameters. to get a higher hit-rate
            // (and more false alarms, respectively), decrease the hitThreshold and
            // groupThreshold (set groupThreshold to 0 to turn off the grouping completely).
            //hog.detectMultiScale(newFrame, foundLocations, 0, cv::Size(8,8), cv::Size(32,32), 1.05, 2);
            hog.detectMultiScale(newFrame, foundLocations, 0, cv::Size(8,8), cv::Size(32,32), 1.05, 2);
            
            int i,j;
            for( i = 0; i < foundLocations.size(); i++ )
            {
                cv::Rect r = foundLocations[i];
                for( j = 0; j < foundLocations.size(); j++ ) {
                    if( j != i && (r & foundLocations[j]) == r)
                        break;
                    if( j == foundLocations.size() )
                        found_filtered.push_back(r);
                }
            }
            
            console() << " found # " << foundLocations.size() << " filtered to " << found_filtered.size() << endl;
            
            ciPeople.clear();
            for( i = 0; i < foundLocations.size(); i++ ) {
                
                cv::Rect r = foundLocations[i];
                // the HOG detector returns slightly larger rectangles than the real objects.
                // so we slightly shrink the rectangles to get a nicer output.
                r.x += cvRound(r.width*0.1);
                r.width = cvRound(r.width*0.8);
                r.y += cvRound(r.height*0.07);
                r.height = cvRound(r.height*0.8);
                ciPeople.push_back(fromOcv(r));
            }
        }
    }
}
Esempio n. 4
0
 void detect(shared_data& in_data)
 {
     std::vector<cv::Rect> temp_boxes;
     for (auto i: in_data.im_data.im_ROI) {
         temp_resize.create(in_data.im_data.image(i).rows*opt.scale, in_data.im_data.image(i).cols*opt.scale, CV_64FC3);
         cv::resize(in_data.im_data.image(i), temp_resize, temp_resize.size());
         //these magic numbers are from opencv
         if (temp_resize.rows > 128 && temp_resize.cols > 64) {
             temp_boxes.clear();
             hog.detectMultiScale(temp_resize,
                                  temp_boxes,
                                  0,
                                  cv::Size(8, 8),
                                  cv::Size(0, 0),
                                  1.05);
             for (auto j: temp_boxes) {
                 i.x -= center_x;
                 i.y -= center_y;
                 i.x = opt.scale*i.x+scenter_x;
                 i.y = opt.scale*i.y+scenter_y;
                 j.x += i.x;
                 j.y += i.y;
                 j.x -= scenter_x;
                 j.y -= scenter_y;
                 j.x = 1.0/opt.scale*j.x+center_x;
                 j.y = 1.0/opt.scale*j.y+center_y;
                 j.height/=opt.scale;
                 j.width/=opt.scale;
                 box_safe(j, 0, 0, in_data.im_data.image.cols-1, in_data.im_data.image.rows-1);
                 shared_data::bbox temp;
                 temp = j;
                 temp.type_label = TYPE_PERSON;
                 in_data.im_boxes.push_back(temp);
             }
         }
     }
 }
void ocvOpticalFlowApp::findPeople(cv::Mat curImg)
{
    cv::Mat monoImg; 
    cv::cvtColor(curImg, monoImg, CV_BGR2GRAY);
    hog.detectMultiScale(monoImg, mFoundPeople);
}