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I want to calculate my camera's position in world coordinates. This should be fairly easy, but I don't get the results I expect. I believe I've read everything on this topic, but my code isn't working. Here's what I do:

I have a camera looking at an area.

1) I drew a map of the area.

2) I calculated the homography by matching 4 image points to 4 points on my map using cv2.getPerspectiveTransform

3) The H homography transforms every world coordinate to camera coordinate; this is working properly

4) To calculate the camera matrix I followed this:

translation = np.zeros((3,1)) 
translation[:,0] = homography[:,2]

rotation = np.zeros((3,3))
rotation[:,0] = homography[:,0]
rotation[:,1] = homography[:,1]
rotation[:,2] = np.cross(homography[0:3,0],homography[0:3,1])

cameraMatrix = np.zeros((3,4))
cameraMatrix[:,0:3] = rotation
cameraMatrix[:,3] = homography[:,2]

cameraMatrix = cameraMatrix/cameraMatrix[2][3] #normalize the matrix

5) According to this, the camera's position should be calculated like this:

x,y,z =,translation)

The coordinates I'm getting are totally wrong. The problem should be somewhere in step 4 or 5 I guess. What's wrong with my method?

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do you know the world coordinates of those 4 points? – Hammer Jan 21 '13 at 20:34
yes, I know the world coordinates – b_m Jan 21 '13 at 21:14
if you are already using opencv can you just use solvePnP instead? it would give you your world position directly... – Hammer Jan 21 '13 at 21:55
I've just tried the solvePnP, it returns a 3-element rotation and a 3-element translation vector, but I'm not sure what to do with them. – b_m Jan 22 '13 at 11:22
I would recommend asking a question about your problem, solvePnP is much better suited to finding your world position than getPerspectiveTransform – Hammer Jan 23 '13 at 16:00

1 Answer 1

up vote 5 down vote accepted

I think I've got it now. The problem was with the method described in step 4. The camera position cannot be calculated from the homography matrix alone. The camera intrinsics matrix is also necessary. So, the correct procedure is the following:

1) draw a map of the area

2) calibrate the camera using the chessboard image with cv2.findChessboardCorners this yields the camera matrix and the distortion coefficients

3) solvePnP with the world coordinates (3D) and image coordinates (2D). The solvePnP returns the object's origo in the camera's coordinate system given the 4 corresponding points and the camera matrix.

4) Now I need to calculate the camera's position in world coordinates. The rotation matrix is: rotM = cv2.Rodrigues(rvec)[0]

5) The x,y,z position of the camera is: cameraPosition = -np.matrix(rotM).T * np.matrix(tvec)

share|improve this answer
I have the same situation as you, but I'm a little stuck on 5). Struggling to find the finer details of numpy to convert to c/++... is your final line akin to... TransMatrix = inverse( rotM.Transpose() ) .PostMult ( TransMatrix ) or is the - something other than inverse? – Soylent Graham Mar 13 '13 at 20:51
it is an inverse – b_m Mar 14 '13 at 10:18
this is the position in the world space right? for use cameraPosition and rotM as a view matrix in opengl I have to take the inverse, right? – nkint Sep 10 '13 at 13:40
@b_m What exactly is the "world coordinates (3D)" that we have to pass to the solvePnP function? Is it known? How can I find that? – Clive Jan 16 at 15:37

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