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I'am facing problem in understanding what the new camera matrix in cvUndistortpoints. We get a camera martix of camera in stereocalibration itself and why we have to pass a new cameramatrix in cvstereorectify which we obtain from cvundistortpoints. How exactly new camera matix dufferent from camera matrix after the output of cvUndistortPoints..

            void cvUndistortPoints(const CvMat* src, CvMat* dst, const CvMat* 
       cameraMatrix,   const CvMat* distCoeffs, const CvMat* R=NULL, const 
        CvMat* P=NULL)

and the reference link is here http://opencv.willowgarage.com/documentation/c/calib3d_camera_calibration_and_3d_reconstruction.html?highlight=undistortpoints#cvUndistortPoints

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Actually, P, the new camera matrix, is an -input-. cvUndistortPoints does not create it. –  Bobbi Bennett May 27 '12 at 14:13
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3 Answers

up vote 1 down vote accepted

The answer is one page up in the documentation you provided. P is given to you by StereoRectify.

Here is what it says about it under undistort in opencvrefman.pdf, which, my friend, you should be reading too:

newCameraMatrix – Camera matrix of the distorted image. By default, it is the same as cameraMatrix but you may additionally scale and shift the result by using a different matrix.

Now, I am pretty new to this, and have not had occasion to use the StereoRectify functions yet, but I am guessing that you might want to undistort an image to look like what a different camera would see.

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I would be very happy if you could clarify me, why we transfer the new camera matrix into cvUndistortpoints. What is the specific use in passing this new matrix.. –  nbsrujan May 27 '12 at 14:43
The confusing part in the documentation is the phrase "camera matrix of the distorted image". It's NOT the matrix of the distorted image, but of the hypothetical "undistorted" image - i.e. the output image. A camera matrix has 4 important fields 2 focal lengths (for x and y), and 2 shifts - the coordinates of the "principal point". First two allow for scaling, the latter can shift the viewpoint. I also tried to rectify the image in one go, by multiplying the inNewCameraMatrix by inverse of rotation matrix from the extrinsic parameters of camera calibration (to look exactly along the z-axis). –  Tomasz Gandor May 13 '13 at 11:48
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In the case of monocular camera newCameraMatrix is usually equal to cameraMatrix , or it can be computed by GetOptimalNewCameraMatrix for a better control over scaling.

Check out http://opencv.willowgarage.com/documentation/cpp/camera_calibration_and_3d_reconstruction.html#cv-getoptimalnewcameramatrix

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For artistic or manufacturing reasons, majority of common-purpose cameras capture images with radial (barrel or pincushion) distortion, that function tries to remove these distortions.

http://en.wikipedia.org/wiki/Distortion_(optics) There is mathematical explanation of the software implementation for removing radial distortion.

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My question is not why do we need this function. My actual question is what do we get output as the new matrix and how it is different from the original camera matrix. –  nbsrujan May 27 '12 at 13:25
@nbsrujan Do you know what is radial distortion? Could you explain me briefly, because that will lead you the answer that you are looking for. BTW, in the wiki link there is mathematical explanation for software solution. –  Seçkin Savaşçı May 27 '12 at 13:28
Yes I know what radial distortion is. My actual question is about the function .This function undistorts the given points ,here I give src matrix camera matrix, distortion matrix as input and get dst matrix and new camera matrix as output. What changes will be made to the new camera matrix.If you look over the given link in opencv doccumentation you can understand what eactly my question is... –  nbsrujan May 27 '12 at 13:37
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