I'm not able to find any kind of information about the find4QuadCornerSubpix() function. I'm trying to understand the differenti between find4QuadCornerSubpix() and cornerSubPix().

Someone can help me?

thanks

TLDR; use cornerSubPix, find4QuadCornerSubpix is unfinished

• cornerSubPix uses a solver to find the saddle point (first derivative zero and second is changing sign) within the mask area (winSize). Note that findChessboardCorners will do one cornerSubPix call with a small window of 2x2, thus you already get somewhat subpixel-accurate coordinates.
• find4QuadCornerSubpix tries to approximate lines seperating the checkerboard fields ("quads") and returns those lines' crossing points. The find4Quad function too only uses the masked area ("region_size") around each supplied input point (e.g. from findChessboardCorners).

I tested both corner refinements with artificial generated images (low noise added, no distortions, most quads around ~ 100pxl edge length) with these abs. differences measured in pixel:

1. rms 0.0537 max 0.1963; cv::findChessboardCorners (no additional ref.):
2. rms 0.0368 max 0.0969; (1) + 11x11 cornerSubPix; same param as in ocv tutorial
3. rms 0.2230 max 1.2619; (1) + 11x11 find4QuadCornerSubpix (imgs binarized w. adaptive Thr.)

I tested 3x3, 11x11, 50x50, 100x100, 150x150 and inputing images binarized w. adaptive Thr.; all with the same result.

I chose some real-world examples where the intrinsic calibrations have an reprojection rms of about 0.08 for something similar to (2). For (3) they had 0.25 pixel reproj. rms.

So currently (opencv release 4.5.1) to me the find4QuadCornerSubpix looks unfinished and unusable. A rms of 0.5 is the maximum error I would expect without any subpixel refinements. The function also fails if any input coordinate is closer to the image border than region_size/2

• After looking a bit deeper at the code, I'm conviced that the rms cannot get much better with the find4Quad approach (quad coordinates are internally from binarized images and most crossing coordinates end in either .0 or .5); maybe it is intended to refine corner points which were detected using a much lower resolution images and thus 0.5 is better than nothing for those cases without running the slower functions on the full resolution; still I would suspect cornerSubPix to behave better in those situations Apr 6, 2021 at 16:38