I was trying to replicate this camera calibration code.

When I run my script, the calibration process won't stop for about 30 minutes (I expected the intrinsic camera matrix for the output). What is wrong with my code? Why does the calibration process take so long?

This is my code

import os
import cv2
import numpy as np 

FilepathCalib = './data'

# Declaring global variable
img_calib_set = []

points_3d_sample = np.zeros((6*7,3), np.float32)
points_3d_sample[:,:2] = np.mgrid[0:7,0:6].T.reshape(-1,2)

points_2d = []
points_3d = []

# Loading calibration image dataset
for img_calib in os.listdir(FilepathCalib):
    img_calib = cv2.imread(FilepathCalib + '/' + img_calib, 0)

# Finding checkerboard corners pattern in image dataset
for img in img_calib_set:
    ret_val, corner = cv2.findChessboardCorners(img, (7,9), None)

    if ret_val == True:

# Extracting camera parameters 
ret_val, intrinsic_mat, dist_coef, rot_vector, tran_vector =         
cv2.calibrateCamera(points_3d, points_2d, img_calib_set[0].shape[::-1], None, None)

And here's my sample calibration image enter image description here


The cv2.findChessboardCorners() function's processing time depends a lot on the input image.

30 minutes on 1K-4K images is not abnormal. Have you tried writing the processing time to the console output or a debug log?

This way you can find out if certain images take a lot longer than the others. I had a case in which most images took 10-20 seconds, but a handful took 3-5 minutes. The pictures that took a lot of time to process often had blurry checkerboard patterns (motion blur), or had other rectangular background patterns (closets, blinds, window frames, etc...).

Judging your input image, I can definitely see the paper cardboard is slightly curved as a result of holding it. I also had a hard time sticking the calibration pattern to a truly flat surface. In the end I used an LCD monitor to display the image, and moved the camera around for the calibration images (make sure you don't scale the image on the monitor; 1 pixel on the image should be 1 pixel on the monitor, and it doesn't have to be full screen). This gave me the lowest re-projection error.

IS your sample image lower quality than your actual footage? You can clearly see that the JPEG compression algorithm creates a lot of compression artifacts on the edges in the image. This is not ideal. If this is your actual footage, I would recommend setting the compression quality to maximum, or use a lossless format like PNG.

I was able to cut the calibration time in half by replacing some calibration images with better candidates.

  • Ah, I see. Yes, it finally finished the whole 50 images in 2.5 hours with a bit of difference compared to the result from Matlab calibration toolbox (I didn't measure the actual error yet). Yes, I didn't use a proper equipment to shoot the image, I kinda did it in "DIY-ish" way. Oh, actually the uploaded sample image is just a screenshot of the actual image, I performed the calibration with the original image taken from the camera. I'll try your suggestion for later experiment. Thank you Gwen, I thought the long time process was an error. – rendchevi Jun 29 '18 at 10:02

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