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I am currently working on a project that requires me to find the focus of expansion using optical flow.

I currently have the optical flow and am using the formula from pages 13-14 this paper:

I take two frames from a video and find pyramids from both using buildOpticalFlowPyramid then find the keypoints using goodFeaturesToTrack. Using these I then calculate the sparse optical flow with calcOpticalFlowPyrLK. All three of these methods are provided by OpenCV.

The problem I have hit is that I need both the flow vector for each keypoint in the image to fill the A and b matrices. Would the pixel value be just the location of the keypoint in the original image? And then the flow vector is the difference between the initial location and new point?

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1 Answer 1

Yes, that is precisely so. Using the terms/variables as per the paper and the following link,

p_i = (x,y) are the prevPts (points in the original image),

v = (u,v) are the flow vectors obtained by subtracting points in prevPts from those in nextPts.

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