I'm trying to find the relative position of the camera to the chessboard (or the other way around) - I feel OK with converting between different coordinate systems, e.g. as suggested here. I decided to use chessboard not only for calibration but actual position determination as well at this stage, since I can use the
findChessboardCorners to get the
imagePoints (and this works OK).
I've read a lot on this topic and feel that I understand the
solvePnP outputs (even though I'm completely new to
openCV and computer vision in general). Unfortunately, the results I get from
solvePnP and physically measuring the test set-up are different: translation in z-direction is off by approx. 25%.
y directions are completely wrong - several orders of magnitude and different direction than what I've read to be the camera coordinate system (x pointing up the image, y to the right, z away from the camera). The difference persists if I convert
rvec to camera pose in world coordinates.
My questions are:
- What are the directions of camera and world coordinate systems' axes?
solvePnPoutput the translation in the same units as I specify the
- I specified the world origin as the first of the
objectPoints(one of the chessboard corners). Is that OK and is
tvecthe translation to exactly that point from the camera coordinates?
This is my code (I attach it pro forma as it does not throw any exceptions etc.). I used grayscale images to get the camera intrinsics matrix and distortion coefficients during calibration so decided to perform localisation in grayscale as well.
chessCoordinates is a list of chessboard points location in mm with respect to the origin (one of the corner points).
distCoefficients come from calibration (performed using the same chessboard and
camCapture=cv2.VideoCapture(0) # Take a picture of the target to get the imagePoints tempImg=camCapture.read() imgPts= tgtPts= tempImg=cv2.cvtColor(tempImg, cv2.COLOR_BGR2GRAY) found_all, corners = cv2.findChessboardCorners(tempImg, chessboardDim ) imgPts.append(corners.reshape(-1, 2)) tgtPts.append(np.array(chessCoordinates, dtype=np.float32)) retval,myRvec,myTvec=cv2.solvePnP(objectPoints=np.array(tgtPts), imagePoints=np.array(imgPts), cameraMatrix=camMatrix, distCoeffs=distCoefficients)