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Hey, I'm doing a project to stabilize video sequence by using optical flow method. I have done well the optical flow so far. But I have 2 branches in front of me to work on it.. 1- after getting the optical flow, I have found the average of the image displacement and then I have subtracted the average from the features of the second frame, my question is what to do next?

2- Or I could use the openCV function in order stabilize image, which I calculated the transformation Matrix and then I used cvPerspectiveTransform then cvWarpPerspective, but I'm getting error which is "bad flag"

you can see the code, what I want is what to do to stabilize the image? I wanna any solution you can provide?

enter code here
#include <stdio.h>
#include <stdlib.h>    
//#include "/usr/include/opencv/cv.h"    
#include <cv.h>    
#include <cvaux.h>    
#include <highgui.h>    
#include <math.h>    
#include <iostream>

#define PI 3.1415926535898

double rads(double degs)
{
    return (PI/180 * degs);
}

CvCapture *cap;

IplImage *img;    
IplImage *frame;     
IplImage *frame1;    
IplImage *frame3;    
IplImage *frame2;    
IplImage *temp_image1;    
IplImage *temp_image2;    
IplImage *frame1_1C;     
IplImage *frame2_1C;     
IplImage *eig_image;     
IplImage *temp_image;     
IplImage *pyramid1 = NULL;    
IplImage *pyramid2 = NULL;

char * mapx;
char * mapy;

int h;
int corner_count;
CvMat* M = cvCreateMat(3,3,CV_32FC1);
CvPoint p,q,l,s;
double hypotenuse;
double angle;

int line_thickness = 1, line_valid = 1, pos = 0;
CvScalar line_color;
CvScalar target_color[4] = { // in BGR order
        {{   0,   0, 255,   0 }},  // red    
        {{   0, 255,   0,   0 }},  // green    
        {{ 255,   0,   0,   0 }}, // blue    
        {{   0, 255, 255,   0 }}   // yellow    
};

inline static double square(int a)    
{
return a * a;  
}

char* IntToChar(int num){return NULL;}

/*{
    char* retstr = static_cast<char*>(calloc(12, sizeof(char)));

    if (sprintf(retstr, "%i", num) > 0)
    {
        return retstr;
    }
    else
    {
        return NULL;
    }
}*/

inline static void allocateOnDemand( IplImage **img, CvSize size, int depth, int channels )
{
    if ( *img != NULL ) 
         return;

    *img = cvCreateImage( size, depth, channels );

    if ( *img == NULL )
    {
        fprintf(stderr, "Error: Couldn't allocate image.  Out of memory?\n");
        exit(-1);
    }
}

void clearImage (IplImage *img)
{ 
    for (int i=0; i<img->imageSize; i++)    
        img->imageData[i] = (char) 0;    
}

int main()
{
    cap = cvCaptureFromCAM(0);    
    //cap = cvCaptureFromAVI("/home/saif/Desktop/NAO.. the project/jj/Test3.avi");

    CvSize frame_size;

    // Reading the video's frame size
    frame_size.height = (int) cvGetCaptureProperty( cap, CV_CAP_PROP_FRAME_HEIGHT );
    frame_size.width  = (int) cvGetCaptureProperty( cap, CV_CAP_PROP_FRAME_WIDTH );    
    cvNamedWindow("Optical Flow", CV_WINDOW_AUTOSIZE);

    while(true)    
    {
    frame = cvQueryFrame( cap );

        if (frame == NULL)
        {    
            fprintf(stderr, "Error: Hmm. The end came sooner than we thought.\n");
            return -1;    
        }

        // Allocating another image if it is not allocated already.     
        allocateOnDemand( &frame1_1C, frame_size, IPL_DEPTH_8U, 1 );    
        cvConvertImage(frame, frame1_1C, 0);    
        allocateOnDemand( &frame1, frame_size, IPL_DEPTH_8U, 3 );    
        cvConvertImage(frame, frame1, 0);

        //Get the second frame of video.    
        frame = cvQueryFrame( cap );

        if (frame == NULL)    
        {
            fprintf(stderr, "Error: Hmm. The end came sooner than we thought.\n");
            return -1;
        }

        if(!frame) 
        {    
            printf("bad video \n");    
            exit(0);
        }

        allocateOnDemand( &frame2_1C, frame_size, IPL_DEPTH_8U, 1 );   
        cvConvertImage(frame, frame2_1C, 0);    
        allocateOnDemand( &frame2, frame_size, IPL_DEPTH_8U, 3 );    
        cvConvertImage(frame, frame2, 0);

        CvSize optical_flow_window = cvSize(5,5);    
        eig_image = cvCreateImage( frame_size, IPL_DEPTH_32F, 1 );    
        temp_image = cvCreateImage( frame_size, IPL_DEPTH_32F, 1 );

        CvTermCriteria optical_flow_termination_criteria = cvTermCriteria( CV_TERMCRIT_ITER | CV_TERMCRIT_EPS, 20, .3 );

        // Feature tracking 
        CvPoint2D32f frame1_features[4];
        CvPoint2D32f frame2_features[4];

        //cvCornerEigenValsAndVecs(eig_image, temp_image, 1 );    
        corner_count = 4;

        cvGoodFeaturesToTrack(frame1_1C,eig_image , temp_image, frame1_features, &corner_count, 0.1, .01, NULL, 5, 1);    
        cvFindCornerSubPix( frame1_1C, frame1_features, corner_count,cvSize(5, 5) ,optical_flow_window , optical_flow_termination_criteria);

        if ( corner_count <= 0 )    
            printf( "\nNo features detected.\n" );    
        else    
            printf( "\nNumber of features found = %d\n", corner_count );

        //Locus Kande method.     
        char optical_flow_found_feature[20];    
        float optical_flow_feature_error[20];

        allocateOnDemand( &pyramid1, frame_size, IPL_DEPTH_8U, 1 );    
        allocateOnDemand( &pyramid2, frame_size, IPL_DEPTH_8U, 1 );

        cvCalcOpticalFlowPyrLK(frame1_1C, frame2_1C, pyramid1, pyramid2, frame1_features, frame2_features, corner_count, optical_flow_window, 5, optical_flow_found_feature, NULL, optical_flow_termination_criteria, NULL);

    /*
    double sumOfDistancesX = 0;    
    double sumOfDistancesY = 0;

    int debug = 0;

     CvFont font1, font2;    
     CvScalar red, green, blue;    
     IplImage* seg_in = NULL;    
     IplImage *seg_out = NULL;

     allocateOnDemand( &seg_in,  frame_size, IPL_DEPTH_8U, 3 );    
     allocateOnDemand( &seg_out, frame_size, IPL_DEPTH_8U, 3 );

     clearImage(seg_in);    
     clearImage(seg_in);    

     for( int i=0; i <corner_count; i++ )
     {

         if ( optical_flow_found_feature[i] == 0 )  
             continue;    
         p.x = (int) frame1_features[i].x;    
         p.y = (int) frame1_features[i].y;    
         q.x = (int) frame2_features[i].x;    
         q.y = (int) frame2_features[i].y;
         angle = atan2( (double) p.y - q.y, (double) p.x - q.x );

          sumOfDistancesX += q.x - p.x;     
          sumOfDistancesY += q.y - p.y;

          //cvRemap(frame2,frame1,averageDistanceX , averageDistanceY,CV_INTER_LINEAR | CV_WARP_FILL_OUTLIERS, cvScalarAll(0));    
      }
      */

      /*    
      int averageDistanceX = sumOfDistancesX / corner_count;    
      int averageDistanceY = sumOfDistancesY / corner_count;    
      l.x = averageDistanceX - q.x;    
      s.y = averageDistanceY - q.y;
      */

#define cvWarpPerspectiveQMatrix cvGetPerspectiveTransform

       //CvMat* N = cvCreateMat(3,3,CV_32FC1);

       cvGetPerspectiveTransform(frame2_features, frame1_features, M);
       cvPerspectiveTransform(frame1_features, frame2_features, M);    
       cvWarpPerspective( frame2_features, frame1_features, M,CV_INTER_LINEAR+CV_WARP_FILL_OUTLIERS,cvScalarAll(0) );

        cvShowImage("Optical Flow", frame1);    
        cvWaitKey(50);
    }

    cvReleaseCapture(&cap);    
    cvReleaseMat(&M);    

    return 0;    
}
share|improve this question
    
Can you tell us which line is giving you the "bad flag" error? EDIT: Oh, and welcome to Stack Overflow! – btown Nov 23 '10 at 5:30
    
The bad flag error, it starts in cvPerspectiveTransform and in cvWarpPerpective. I mean I get the bad flag by using either one of them or both of them. – Mario Nov 24 '10 at 13:08

You don't want to subtract the average displacement from the second image, you want to transform (move) the second image by the average displacement so that it "matches" the first. The "displacement" you use depends on your situation.

  • If your camera is shaking but stationary otherwise you want the use the average displacement between two consecutive frames as transformation vector for the second frame. With each new frame you compute the displacement between the transformed first frame and the new frame, and transform the new frame.
  • If your camera moves and shakes (i.e. helmet mounted camera on a mountainbiker) you want to first find an average displacement between frames over a few frames and then transform the individual frames in a sequence by the difference between that average displacement and the displacement between it and the previous frame.

EDIT What you basically need to do for option 2 is calculate the average of the average movement between frames over the last few frames. This you could do in any number of ways, but I'd suggest using something like a kalman filter. Then, for a new frame you calculate the movement between that and the (corrected) previous frame. From the movement you get you subtract the average movement up to that point and you move the new frame by that difference.

share|improve this answer
    
I'm going with the second option, I'm working on robot which has very shaky movements. You can see in my code that I get the average of displacement and then subtract it. But your idea is a bit different but I don't know how to implement it, My main problem is with programming. Can you give more specific suggestion. – Mario Nov 24 '10 at 13:37
    
I added a comment about implementation. – jilles de wit Nov 28 '10 at 22:06
    
@jillesdewit Hi, you've suggested to use a kalman filter to calculate the average movement between frames. But on reading around a bit, what I've understood is that kalman filters are used to predict values from previously measured values. How would that help me to calculate average motion? – Shubhadeep Chaudhuri Sep 22 '13 at 23:53
    
You use the kalman filter to predict the regular movement between frames. This helps you eliminate the irregular movement (i.e. the camera shake) because elminating all movement between frames would not work on a moving camera (which is the subject of this question). – jilles de wit Sep 23 '13 at 12:16

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