问题
I'm doing a mobile augmented reality app. I need to calibrate my camera to get the intrinsic and extrinsic parameters using chessboard calibration.
Can I assum that if I calibrate my nexus 4, all nexus will have the same focal length, skew factor and distortion matrix ?
Thanks
回答1:
Well, the answer can be both YES and NO. As you say, in real life none camera is exactly the same with another one, not even if they came from the same manufacturer. But, in order to make our lifes easier, yes we use this simplification, even for photogrammetric/computer vision projects, were the accuracy demands are quite high.
回答2:
Most of the cameras come with undistortion operation coded into a camera pipeline so you most likely don't need to search for distortion parameters at all. Just check that straight lines at the image periphery are really straight. I expect the skew to be close to zero and fx=fy since pixels are square.
Apart from the parameters you mentioned there is also two for principal points Cx, Cy (intersection of an optical axis with the sensor that is often close to w/2, h/2). So overall you have only 3 parameters: F, Cx, Cy with the first one being the most variable among phones of the same model (from my experience). If you aren't using your phone to figure a relative position of another camera most likely you need to know only focal length accurately.
Obviously when you need to worry about a single parameter there are easier ways to get it than using a chessboard rig and trying to find extrinsic parameters in addition to the intrinsic ones. You can figure it out even without measurements - just quire a camera field of view (such as getHorizontalViewAngle()) and use
tan(fov) = image_width/2 / f
Alternatively you can do a simple measurement keeping your phone parallel to the target: for a vertical target of size H that produces image of h pixels you get f as
f/z = h/H
回答3:
Well... if this camera has a built-in autofocus, the focal length will be changed all the time
来源:https://stackoverflow.com/questions/18827488/same-intrinsic-parameter-for-same-camera