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I am developing a feature tracking application and so far, after trying to almost all the feature detectors/descriptors, i've got the most satisfactory overall results with ORB. Both my feature descriptor and detector is ORB.

I am selecting a specific area for detecting features on my source image (by masking). and then matching it with features detected on subsequent frames.

Then i filter my matches by performing ratio test on 'matches' obtained from the following code:

std::vector<std::vector<DMatch>> matches1;

m_matcher.knnMatch( m_descriptorsSrcScene, m_descriptorsCurScene, matches1,2 );

I also tried the two way ratio test(filtering matches from Source to Current scene and vice-versa, then filtering out common matches) but it didn't do much, so I went ahead with the one way ratio test.

i also add a min distance check to my ratio test, which, it apppears, gives better results

if (distanceRatio < m_fThreshRatio && bestMatch.distance < 5*min_dist)

and in the end , i estimate the Homography.

Mat H = findHomography(points1,points2);

I've tried using the RANSAC method for estimating inliners and then using those to recalculate my Homography, but that gives more unstability plus consumes more time.

then in the end i draw a rectangle around my specific region which is to be tracked. i get the plane coordinates by:

perspectiveTransform( obj_corners, scene_corners, H);

where 'objcorners' are the coordinates of my masked(or unmasked) region.

The reactangle I draw using 'scene_corners' seems to be vibrating. increasing the number of features has reduced it quite a bit, but I cant increase them too much because of the time constraint.

How can i improve the stability?

Any suggestions would be appreciated.


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2 Answers 2

If it is the vibrations that are really bothersome to you then you could try taking the moving average of the homography matrices over time:

cv::Mat homoG = cv::findHomography(obj, scene, CV_RANSAC);
if (homography.empty()) {
cv::accumulateWeighted(homoG, homography, 0.1);

Make the 'homography' variable global, and keep calling this every time you get a new frame. The alpha parameter of accumulateWeighted is the reciprocal of the period of the moving average.

So 0.1 is taking the average of the last 10 frames and 0.2 is taking the average of the last 5 and so on...

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Thanks sam, i'll surely give it a shot –  user2522651 Oct 18 '13 at 12:19

A suggestion that comes to mind from experience with feature detection/matching is that sometimes you just have to accept the matched feature points will not work perfectly. Even subtle changes in the scene you are looking at can cause somewhat annoying problems, for example changes in light or unwanted objects coming into view.

It appears to me that you have a decently working feature matching in place from what you say, you may want to work on a way of keeping the region of interest constant. If you know the typical speed or any other movement patterns unique to any object you are trying to track between frames, or any constraints relating to the position of your camera, it may be useful in avoiding recalculating the region of interest unnecessarily causing vibrations. Or in fact it may help in creating a more efficient searching algorithm, allowing you to increase the number of feature points you can detect and use.

Another (small) hack you can use is to avoid redrawing the region window if the previous window was of similar size and position.

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Thanks for your reply Mikey. –  user2522651 Jul 23 '13 at 6:12
Thanks for your reply Mikey. I was in fact considering not recalculating the region window if the previous window was of similar size and position, but I left that as a last resort. Guess ill have go with it. And one more thing, do you know how the EdgeThreshold param of ORB detector works? does increasing it means getting stronger corners (edges hence corners). –  user2522651 Jul 23 '13 at 6:21
It is the size of the border around your image in which feature points are not detected. Since it uses patches to detect feature points it cannot operate too close to the edge of the image otherwise the patch will be out of bounds. However if you're only feature detecting within a region of a larger image, you can reduce it pretty much down to zero. Have a quick look the documentation, it has more info:… –  MikeGold Jul 23 '13 at 9:04
P.S. Welcome to Stack Overflow! Don't forget to tick my answer if you think it answered your question and upvote it if you think it was helpful! –  MikeGold Jul 23 '13 at 9:06
Ok, so if I apply a mask to my source image, EdgeThreshold would then mean the size of the border around the masked region and not the whole image, right? –  user2522651 Jul 23 '13 at 11:06

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