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I have an marker detection system for AR at the moment, it detects markers in the scene and gives the transform matrix of the camera for each marker in the scene.

Let's say I have found 2 markers. I am trying to find the rotation matrix I will have to apply to one of the markers in order to get it to match the orientation of the other marker.

I figured it should be the same as computing the transform matrix of one marker to another and decomposing the transform to obtain the x,y,z euler rotation matrix but I cannot seem to get this to work. I am using C# with XNA.

In code:

 Matrix marker1 = markerTransforms[0];
 Matrix marker2 = markerTransforms[1];

 Matrix relativeTransform = Matrix.Invert(marker1) * marker2;

 Quaternion rotation;
 Vector3 scale;
 Vector3 translation;
 relativeTransform.Decompose(out scale, out rotation, out translation);
 Matrix rotationMatrix = Matrix.CreateFromQuaternion(rotation);

This above doesn't seem to work.

Another question would be how to extract out the x,y,z euler rotations from the rotation matrix?


I found a function to convert the quaternion to euler following x,y,z order here: http://forums.create.msdn.com/forums/p/4574/23763.aspx

Applying this to my code I got the following results:

enter image description here

The actual rotation should be: x:0 y:0 z:-0.52

I also noticed that the y and z changed a lot depending on how I positioned the camera.

The two transform matrices I obtain from the marker detector contain the orientation and translation of the camera relative to one of the markers as explained here: http://www.hitl.washington.edu/artoolkit/documentation/tutorialcamera.htm I have converted them to XNA format and I know them to work correctly as I can draw the corners onto the screen and it matches up with what the camera is seeing.

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I'm almost sure that euler angles are calculated correctly, but they are given in the coordinate system related to the camera. But you want to get euler angles relative to the horizontal plane, don't you? –  user502144 Jun 4 '12 at 10:46
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1 Answer 1

The solution I like the most is using quaternions. If you have one orientation described by q1, and other described by q2, you can get from one orientation to the other by


being q the rotation you are looking for.

q = q1 * (q2)^-1; q = q1 * conj(q2);

You just have to convert from rotation to quaternion and quaternion to rotation.

Just make sure that you normalize quaternions so the equivalences are true. In the pages I linked you have all the necessary formulas, explanations, even code in Java, c++. Really worth adding to favorites.

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