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I have an image of a chessboard taken at some angle. Now I want to warp perspective so the chessboard image look again as if was taken directly from above.

I know that I can try to use 'findHomography' between matched points but I wanted to avoid it and use e.g. rotation data from mobile sensors to build homography matrix on my own. I calibrated my camera to get intrinsic parameters. Then lets say the following image has been taken at ~60degrees angle around x-axis. I thought that all I have to do is to multiply camera matrix with rotation matrix to obtain homography matrix. I tried to use the following code but looks like I'm not understanding something correctly because it doesn't work as expected (result image completely black or white.

enter image description here

import cv2
import numpy as np
import math 

camera_matrix = np.array([[ 5.7415988502105745e+02, 0., 2.3986181527877352e+02],
                           [0., 5.7473682183375217e+02, 3.1723734404756237e+02], 
                           [0., 0., 1.]])

distortion_coefficients = np.array([ 1.8662919398453856e-01, -7.9649812697463640e-01,
   1.8178068172317731e-03, -2.4296638847737923e-03,
   7.0519002388825025e-01 ])

theta = math.radians(60)

rotx = np.array([[1, 0, 0],
               [0, math.cos(theta), -math.sin(theta)],
               [0, math.sin(theta), math.cos(theta)]])   

homography = np.dot(camera_matrix, rotx)

im = cv2.imread('data/chess1.jpg')
gray = cv2.cvtColor(im,cv2.COLOR_BGR2GRAY)

im_warped = cv2.warpPerspective(gray, homography, (480, 640), flags=cv2.WARP_INVERSE_MAP)
cv2.imshow('image', im_warped)

I also have distortion_coefficients after calibration. How can those be incorporated into the code to improve results?

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2 Answers

One problem is that to multiply by a camera matrix you need some concept of a z coordinate. You should start by getting basic image warping given Euler angles to work before you think about distortion coefficients. Have a look at this answer for a slightly more detailed explanation and try to duplicate my result. The idea of moving your image down the z axis and then projecting it with your camera matrix can be confusing, let me know if any part of it does not make sense.

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Thx, it helped me to understand it better but I don't get still 2 things: 1) in #2 is 'center the image at the origin' necessary? By origin we mean middle of the image? 2) '#4 move the image down the z axis' Does it mean we need distance from camera to plane? Why in your example you have used 'image.rows' for 'z' value? Is it just hardcoded? I also read 'Step by Step Camera Pose Estimation' on StackExchange and I still don't understand what should I put for 'Tz'. I can clarify I don't mind if the rectangles will be scaled. I need just that the angle of rectangles will have 90deggree –  user657429 Oct 30 '12 at 23:06
@user657429 If you want perspective effects to be centered on the center of your image, then the image needs to be centered on 0,0,0 in world space. In opencv the origin starts at the top left. You can either move it manually like I did, or multiplying by the inverse of the camera matrix works too and might be more intuitive. Here is another explanation, does it make the theory more clear? –  Hammer Nov 1 '12 at 15:18
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You do not need to calibrate the camera nor estimate the camera orientation (the latter, however, in this case would be very easy: just find the vanishing points of those orthogonal bundles of lines, and take their cross product to find the normal to the plane, see Hartley & Zisserman's bible for details).

The only thing you need to do is estimate the homography that maps the checkers to squares, then apply it to the image.

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This is what I'm trying to do: estimate/build the homography but it doesn't work. But I don't want to use findHomography. The reason for this is: 1) I already know rotation matrix from sensor and want to save time for calculation. 2) it might be hard for me to obtain corresponding points (instead of rectangles I might have circles) –  user657429 Oct 30 '12 at 22:43
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