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I am using standard OpenCV functions to calibrate camera for intrinsic parameters. In order to obtain good results, I know we have to use images of the chessboard from different angles (considering different planes in the 3D). This is stated in all the documentations and papers but I really don't understand, why is it so important for us to consider different planes and if there is an optimal number of planes that we have to consider for the best calibration results?

I will be glad if you can provide me reference to some paper or documentation which explains this. (I think Zhang's paper talks about it but, its mathematically intensive and was hart to digest.)

Thanks

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1 Answer 1

Mathematically, a unique solution for the intrinsic parameters (up to scale) is defined only if you have 3 or more distinct images of the planar target. See page 6 of Zhang's paper: "If n images of the model plane are observed, by stacking n such equations as (8) we have Vb = 0 ; (9) where V is a 2n×6 matrix. If n ≥ 3, we will have in general a unique solution b defined up to a scale factor..."

There isn't an "optimal" number of planes, where data are concerned, the more you have the merrier you are. But as the solution starts to converge, the marginal gain in calibration accuracy due to adding an extra image becomes negligible. Of course, this assumes that the images show planes well separated in both pose and location.

See also this other answer of mine for practical tips.

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