# what is new camera matrix in cvundistortpoints.?

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)
``````
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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

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

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.

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