Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I am trying to develop an augmented reality program that overlays a 3d object on top of a marker. The model does not move along(proportionately) with the marker. Here are the list of things that I did

1) Using opencv: a) I used the solvepnp method to find rvecs and tvecs. b) I also used the rodrigues method to find the rotation matrix and appended the tvecs vector to get the projection matrix. c) Just for testing I made some points and lines and projected them to make a cube. This works perfectly fine and I am getting a good output.

2) Using irrlicht: a) I tried to place a 3d model(at position(0,0,0) and rotation(0,0,0)) with the camera feed running in the background. b) Using the rotation matrix found using rodrigues in opencv I calculated the pitch, yaw and roll values from this post("http://planning.cs.uiuc.edu/node103.html") and passed the value onto the rotation field. In the position field I passed the tvecs values. The tvecs values are tvecs[0], -tvecs[1], tvecs[2].

The model is moving in the correct directions but it is not moving proportionately. Meaning, if I move the marker 100 pixels in the x direction, the model only moves 20 pixels(the values 100 and 20 are not measured, I just took arbitrary values illustrate the example). Similarly for y axis and z axis. I do know I have to introduce another transformation matrix that maps the opencv camera coordinates to irrlicht camera coordinates and its a 4x4 matrix. But I do not know how to find it. Also the opencv's projections matrix [R|t] is a 3x4 matrix and it yields a 2d point that is to be projected. The 4x4 matrix mapping between opencv and irrlicht requires a 3d point(made homogeneous) to be fed into a 4x4 matrix. How do I achieve that?

share|improve this question

1 Answer 1

The 4x4 matrix You are writing about seems to be M=[ R|t; 0 1]. t is 3x1 translation vector. To get the transformed coordinates v' of 4x1 ([x y z 1]^T) point v just do v'=Mt.

Your problem with scaling may be also caused by difference in units used for camera calibration in OpenCV and those used by the other library.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.