Python scripts for camera intrinsic parameters calibration and image undistortion.
It finds following parameters:
- focal length
- principal point
- radial distortion coefficients
using video of a moving chessboard pattern or a sequence of images as an input.
Example input:
Example output YAML file:
camera_matrix:
- [1016.5691777733053, 0.0, 632.3505845656954]
- [0.0, 1013.9401023559311, 351.0453222243043]
- [0.0, 0.0, 1.0]
dist_coefs:
- [-0.3797582960152331, 0.20896823985868346, -0.0003239082442461539, -0.0019027617884934114,
-0.0668551319250156]
rms: 1.1814231691868478
pip install video2calibration
You can also install the in-development version with::
pip install https://github.com/smidm/video2calibration/archive/master.zip
- print the pattern without any distortions
- check if the printed squares are correct squares
- glue the pattern to a solid board
- fix the camera lens zoom, the calibration values change with the lens zoom changes
- record a video with the pattern moving in front of the camera
- the pattern should be most of the time completely visible
- try to move the pattern to cover all parts of the camera view, pay attention to the corners
- the length of the video should be 1 or 2 minutes
- run the calibration.py to extract chessboard pattern corners from the video and perform camera calibration
Example usage (you can actually run the example, the input data is present in the ./example_input):
$ calibrate.py --help
usage: calibrate.py [-h] [--debug-dir DEBUG_DIR] [-c CORNERS] [-fs FRAMESTEP]
input out
Calibrate camera using a video of a chessboard or a sequence of images.
positional arguments:
input input video file or glob mask
out output calibration yaml file
optional arguments:
-h, --help show this help message and exit
--debug-dir DEBUG_DIR
path to directory where images with detected
chessboard will be written
-c CORNERS, --corners CORNERS
output corners file
-fs FRAMESTEP, --framestep FRAMESTEP
use every nth frame in the video
$ mkdir out
$ calibrate.py example_input/chessboard.avi calibration.yaml --debug-dir out
Searching for chessboard in frame 0... not found
Searching for chessboard in frame 20... not found
Searching for chessboard in frame 40... not found
Searching for chessboard in frame 60... not found
Searching for chessboard in frame 80... not found
Searching for chessboard in frame 100... not found
Searching for chessboard in frame 120... not found
Searching for chessboard in frame 140... ok
Searching for chessboard in frame 160... ok
Searching for chessboard in frame 180... ok
Searching for chessboard in frame 200... ok
Searching for chessboard in frame 220... ok
Searching for chessboard in frame 240... ok
Searching for chessboard in frame 260... ok
Searching for chessboard in frame 280... ok
...
Searching for chessboard in frame 1980... ok
Searching for chessboard in frame 2000... ok
Searching for chessboard in frame 2020... ok
Searching for chessboard in frame 2040... not found
Searching for chessboard in frame 2060... not found
Searching for chessboard in frame 2080... not found
Searching for chessboard in frame 2100... ok
Searching for chessboard in frame 2120... not found
Searching for chessboard in frame 2140... not found
Searching for chessboard in frame 2160... not found
Searching for chessboard in frame 2180... not found
Performing calibration...
RMS: 1.01973939405
camera matrix:
[[ 774.55857698 0. 619.69416634]
[ 0. 772.96410156 352.49790333]
[ 0. 0. 1. ]]
distortion coefficients: [ -3.65385859e-01 1.63224385e-01 -2.67163331e-03 3.38261891e-04
-3.81711948e-02]
You can test the found radial distortion coefficients by removing distortion from an image and checking if straight lines are really straight.
$ undistort.py --help
usage: undistort.py [-h] calibration input_mask out
Undistort images based on camera calibration.
positional arguments:
calibration input video file
input_mask input mask
out output directory
optional arguments:
-h, --help show this help message and exit
$ undistort.py calibration.yaml 'example_input/*.png' out/
processing example_input/distorted.png... ok
To run all the tests run:
tox
MIT License, except pattern.png from OpenCV (3-clause BSD License).