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I'm using OpenCV 2.2 and I'm trying to calibrate two cameras to view along the same co-ordinate system. The two cameras will be placed a little separate from each other. I understand calibrating intrinsics for a single camera, but am a little confused so as to how I'd be able to combine two cameras together. Follow up questions are good too.


EDIT - Am working on this problem - will post and describe what works for me when I get it done.

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Please detail what you mean by 'calibrate' –  CharlesB Apr 11 '11 at 19:17
I want it to be so that when I have both cameras pointed towards the same area, I know exactly how their systems of co-ordinates correspond with each other. If I see a ball through both those cameras, I want my program to be able to understand that they are seeing the same thing. Hope that helps. –  sparkFinder Apr 11 '11 at 20:00

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Possible dupe of this? My answer from that is StereoCalibrate will allow you to solve for the essential matrix which you can use to relate any point in one camera to a point in the other camera.

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So does StereoCalibrate just end up treating the two cameras as two streams for the same camera? –  sparkFinder Apr 12 '11 at 6:45
No, it assumes it's two separate cameras. This is reflected in the fact that the function takes two different sets of intrinsics. –  peakxu Apr 12 '11 at 13:35
Once the intrinsics, extrinsics and essential matrix are found, how to I convert one point (x, y) from one camera to the other camera's coordinate system? –  Hongwei Yan Oct 25 '12 at 18:22

Suppose you have two cameras C1 and C2.

  1. The fundamental matrix F defines the relation between the two cameras, that means given an image point x1 in C1 how it constrains the position of the corresponding point x2 in C2. The answer: x1 defines a line in C2 and x2 must be on this line. That is epipolar geometry. It is defined just by the cameras parameters and it does not depend on the scene geometry at all.

  2. Suppose now you have the two projective matrices, P1 and P2, ie, you know all parameters for both cameras. If you have a pair of correspondences, x1 <-> x2 (x1 from C1 and x2 from C2), you are able to estimate the 3D location of the point X in space that was imaged to x1 in C1 and to x2 in C2. You are able to reconstruct your ball, getting a 3D model. The tricky part is to find the matches x1 <-> x2.

Now, if your problem is to know if C1 and C2 are seeing the same thing, maybe your problem is not a stereo problem, but a recognition problem. Maybe SIFT or SURF algorithms be a more appropriated approach.

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If you provide a set of correspondences x1 <-> x2, the fundamental matrix can be estimated. Take a look on cvFindFundamentalMat in OpenCV API. –  TH. Apr 13 '11 at 11:11
Chapter 12 of the Learning OpenCV book presents a gentle introduction to the subject. It presents a good balance between theory and hands-on with OpenCV routines. For all the gory details, the reference is Hartley and Zisserman book Multile view geometry in computer vision. –  TH. Apr 13 '11 at 11:19
"It is defined just by the cameras parameters and it does not depend on the scene geometry at all." - This is not entirely true. Explicit knowledge of the scene geometry is not needed to calculate the fundamental matrix, but changing the pose of a camera will invalidate it (i.e. if the baseline changes). –  Michael Koval Apr 25 '11 at 15:35
Once the fundamental matrix is determined, how can I find the corresponding x2 ( x, y) for x1? –  Hongwei Yan Oct 25 '12 at 18:33

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