# Camera pose estimation (OpenCV PnP)

I am trying to get a global pose estimate from an image of four fiducials with known global positions using my webcam.

I have checked many stackexchange questions and a few papers and I cannot seem to get a a correct solution. The position numbers I do get out are repeatable but in no way linearly proportional to camera movement. FYI I am using C++ OpenCV 2.1.

At this link is pictured my coordinate systems and the test data used below.

``````% Input to solvePnP():
imagePoints =     [ 481, 831; % [x, y] format
520, 504;
1114, 828;
1106, 507]
objectPoints = [0.11, 1.15, 0; % [x, y, z] format
0.11, 1.37, 0;
0.40, 1.15, 0;
0.40, 1.37, 0]

% camera intrinsics for Logitech C910
cameraMat = [1913.71011, 0.00000,    1311.03556;
0.00000,    1909.60756, 953.81594;
0.00000,    0.00000,    1.00000]
distCoeffs = [0, 0, 0, 0, 0]

% output of solvePnP():
tVec = [-0.3515;
0.8928;
0.1997]

rVec = [2.5279;
-0.09793;
0.2050]
% using Rodrigues to convert back to rotation matrix:

rMat = [0.9853, -0.1159,  0.1248;
-0.0242, -0.8206, -0.5708;
0.1686,  0.5594, -0.8114]
``````

So far, can anyone see anything wrong with these numbers? I would appreciate it if someone would check them in for example MatLAB (code above is m-file friendly).

From this point, I am unsure of how to get the global pose from rMat and tVec. From what I have read in this question, to get the pose from rMat and tVec is simply:

``````position = transpose(rMat) * tVec   % matrix multiplication
``````

However I suspect from other sources that I have read it is not that simple.

To get the position of the camera in real world coordinates, what do I need to do? As I am unsure if this is an implementation problem (however most likely a theory problem) I would like for someone who has used the solvePnP function successfully in OpenCV to answer this question, although any ideas are welcome too!

Thank you very much for your time.

• you forgot to inverse tVec. So the right way to do this is -transpose(rMat) * tVec – Vlad Apr 23 '14 at 2:19

I solved this a while ago, apologies for the year delay.

In the python OpenCV 2.1 I was using, and the newer version 3.0.0-dev, I have verified that to get the pose of the camera in the global frame you must:

``````_, rVec, tVec = cv2.solvePnP(objectPoints, imagePoints, cameraMatrix, distCoeffs)
Rt = cv2.Rodrigues(rvec)
R = Rt.transpose()
pos = -R * tVec
``````

Now pos is the position of the camera expressed in the global frame (the same frame the objectPoints are expressed in). R is an attitude matrix DCM which is a good form to store the attitude in. If you require Euler angles then you can convert the DCM to Euler angles given an XYZ rotation sequence using:

``````roll = atan2(-R, R)
pitch = asin(R)
yaw = atan2(-R, R)
``````
• OpenCV does not have an X-Y-Z coordinate system. How to convert to Euler angles with opencv? – Jakob Alexander Eichler Mar 13 '15 at 14:20
• @tokam What do you mean by 'it does not have an X-Y-Z coordinate system'? There is the `RQdecomp3x3` function in OpenCV 3.0. I found it gives me the same results as the conversion you sometimes find on the internet (e.g. here nghiaho.com/?page_id=846): `theta_x = atan2(R.at<double>(2,1), R.at<double>(2,2)); theta_y = atan2(-R.at<double>(2,0), sqrt(pow(R.at<double>(2,1), 2) + pow(R.at<double>(2,2),2))); theta_z = atan2(R.at<double>(1,0), R.at<double>(0,0));` – oarfish May 8 '15 at 15:06
• I ment that the coordinate system of opencv differs from the standard coordinate system for airplanes and other areas. – Jakob Alexander Eichler May 19 '15 at 7:56
• Thanks for asking the question, and for answering it: all the APIs and docs give s*Pc=K[R|T]Pw but nowhere online tells you camera_pose = -(inv(R))*T which is what you want! – WillC Sep 14 '16 at 9:44
• Please take a look at this - stackoverflow.com/questions/59916898/… @ Gouda – Samm Flynn Jan 26 '20 at 21:55

If you mean with global pose a 4x4 camera pose matrix, which can be used in OpenGL, I do it this way

``````CvMat* ToOpenGLCos( const CvMat* tVec, const CvMat* rVec )
{
//** flip COS 180 degree around x-axis **//

// Rodrigues to rotation matrix
CvMat* extRotAsMatrix = cvCreateMat(3,3,CV_32FC1);
cvRodrigues2(rVec,extRotAsMatrix);

// Simply merge rotation matrix and translation vector to 4x4 matrix
CvMat* world2CameraTransformation = CreateTransformationMatrixH(tVec,
extRotAsMatrix );

// Create correction rotation matrix (180 deg x-axis)
CvMat* correctionMatrix = cvCreateMat(4,4,CV_32FC1);
/* 1.00000   0.00000   0.00000   0.00000
0.00000  -1.00000  -0.00000   0.00000
0.00000   0.00000  -1.00000   0.00000
0.00000   0.00000   0.00000   1.00000 */
cvmSet(correctionMatrix,0,0,1.0); cvmSet(correctionMatrix,0,1,0.0);
...

// Flip it
CvMat* world2CameraTransformationOpenGL = cvCreateMat(4,4,CV_32FC1);
cvMatMul(correctionMatrix,world2CameraTransformation,   world2CameraTransformationOpenGL);

CvMat* camera2WorldTransformationOpenGL = cvCreateMat(4,4,CV_32FC1);
cvInv(world2CameraTransformationOpenGL,camera2WorldTransformationOpenGL,
CV_LU );

cvReleaseMat( &world2CameraTransformationOpenGL );
...

return camera2WorldTransformationOpenGL;
}
``````

I think flipping the coordinate system is necessary, because OpenCV and OpenGL/VTK/etc. use different coordinate systems, as illustrated in this picture OpenGL and OpenCV Coordinate Systems

Well, it works this way but somebody might have a better explanation.

position of camera would be {- transpose( r ) * t } . That's it.

And you have done everything correctly except , cv::solvePnp gives (4 x 1) vector for translation if I remember right , you would have to divide x , y , z with the w co-ordinate.

• Avanindra, thank you for your reply. solvePnP has never returned a 4x1 vector for me, I believe from what I saw in the source code that it is returned in its regular (de-normalized) form. Could it be that the values that I am using for the camera intrinsics are incorrect (I have had advise to try negating some elements), or that my frames are incorrectly defined? Thank you. – Gouda May 2 '13 at 5:27
• I agree but for some weird reason -T*R.t() is the one that makes it work. – Vlad Apr 23 '14 at 2:08