# Pose estimation: solvePnP and epipolar geometry do not agree

I have a relative camera pose estimation problem where I am looking at a scene with differently oriented cameras spaced a certain distance apart. Initially, I am computing the essential matrix using the 5 point algorithm and decomposing it to get the R and t of camera 2 w.r.t camera 1.

I thought it would be a good idea to do a check by triangulating the two sets of image points into 3D, and then running solvePnP on the 3D-2D correspondences, but the result I get from solvePnP is way off. I am trying to do this to "refine" my pose as the scale can change from one frame to another. Anyway, In one case, I had a 45 degree rotation between camera 1 and camera 2 along the Z axis, and the epipolar geometry part gave me this answer:

``````Relative camera rotation is [1.46774, 4.28483, 40.4676]
Translation vector is [-0.778165583410928;  -0.6242059242696293;  -0.06946429947410336]
``````

solvePnP, on the other hand..

``````Camera1: rvecs [0.3830144497209735;   -0.5153903947692436;  -0.001401186630803216]
tvecs [-1777.451836911453;  -1097.111339375749;  3807.545406775675]
Euler1 [24.0615, -28.7139, -6.32776]

Camera2: rvecs [1407374883553280; 1337006420426752; 774194163884064.1] (!!)
tvecs[1.249151852575814;  -4.060149502748567;  -0.06899980661249146]
Euler2 [-122.805, -69.3934, 45.7056]
``````

Something is troublingly off with the rvecs of camera2 and tvec of camera 1. My code involving the point triangulation and solvePnP looks like this:

``````points1.convertTo(points1, CV_32F);
points2.convertTo(points2, CV_32F);

// Homogenize image points

points1.col(0) = (points1.col(0) - pp.x) / focal;
points2.col(0) = (points2.col(0) - pp.x) / focal;
points1.col(1) = (points1.col(1) - pp.y) / focal;
points2.col(1) = (points2.col(1) - pp.y) / focal;

points1 = points1.t();      points2 = points2.t();

cv::triangulatePoints(P1, P2, points1, points2, points3DH);

cv::Mat points3D;
convertPointsFromHomogeneous(Mat(points3DH.t()).reshape(4, 1), points3D);

cv::solvePnP(points3D, points1.t(), K, noArray(), rvec1, tvec1, 1, CV_ITERATIVE );
cv::solvePnP(points3D, points2.t(), K, noArray(), rvec2, tvec2, 1, CV_ITERATIVE );
``````

And then I am converting the rvecs through Rodrigues to get the Euler angles: but since rvecs and tvecs themselves seem to be wrong, I feel something's wrong with my process. Any pointers would be helpful. Thanks!

• The first thing I would check, is if points are triangulated correctly, by looking at their reprojection error. – aledalgrande Aug 9 '15 at 18:07
• I have tried doing that; but I am not sure if what I am getting is right: even in cases where I have really bad solvePnP results, the reprojection error is quite low: the highest I've seen in any case was 0.21px. I am using cv::projectPoints on camera2, and then doing a cv::norm(reprojectedPoints, originalPoints, NORM_L2)/originalPoints.size(); Are the rvec/tvec I obtain between the cameras and the rvec/tvec that projectPoints expects the same? – HighVoltage Aug 9 '15 at 19:09
• Yeah, they are the same. Are you selecting matches that are on the same plane/line maybe? – aledalgrande Aug 11 '15 at 18:44
• What version of Opencv are you using? The solvePnP of opencv 3.0 is buggy. – user5422715 Oct 8 '15 at 10:45
• @Prashanth Why do you say the implementation is buggy? – oarfish Jan 24 '16 at 14:01