Overview
This package uses OpenCV camera calibration, described here. For detailed information on the parameters produced by the calibration, see this description.
The code API listed for this package is for convenience only. This package has no supported code API.
For pinhole type cameras this package names the distortion model as plumb_bob or rational_polynomial, depending on number of parameters used. For fisheye type cameras this package uses the equidistant distortion model.
Tutorials
There are tutorials on how to run the calibration tool for monocular and stereo cameras.
Camera Calibrator Usage
To run the cameracalibrator node for a monocular camera using an 8x6
chessboard with 108mm squares:
ros2 run camera_calibration cameracalibrator --size 8x6 --square 0.108 image:=/my_camera/image camera:=/my_camera
When you click on the Save button after a succesfull calibration,
the data (calibration data and images used for calibration) will
be written to /tmp/calibrationdata.tar.gz.
To run the cameracalibrator node for a stereo camera:
ros2 run camera_calibration cameracalibrator --size 8x6 --square 0.108 right:=/my_stereo/right/image_raw left:=/my_stereo/left/image_raw left_camera:=/my_stereo/left right_camera:=/my_stereo/right
cameracalibrator supports the following options:
- Chessboard Options:
You must specify one or more chessboards as pairs of –size and –square options.
- -p PATTERN, --pattern=PATTERN
calibration pattern to detect - ‘chessboard’, ‘circles’, ‘acircles’
- -s SIZE, --size=SIZE
chessboard size as NxM, counting interior corners (e.g. a standard chessboard is 7x7)
- -q SQUARE, --square=SQUARE
chessboard square size in meters
- ROS Communication Options:
- --approximate=APPROXIMATE
allow specified slop (in seconds) when pairing images from unsynchronized stereo cameras
- --no-service-check
disable check for set_camera_info services at startup
- --queue-size=QUEUE_SIZE
image queue size (default 1, set to 0 for unlimited)
- Calibration Optimizer Options:
- --fix-principal-point
for pinhole, fix the principal point at the image center
- --fix-aspect-ratio
for pinhole, enforce focal lengths (fx, fy) are equal
- --zero-tangent-dist
for pinhole, set tangential distortion coefficients (p1, p2) to zero
- -k NUM_COEFFS, --k-coefficients=NUM_COEFFS
for pinhole, number of radial distortion coefficients to use (up to 6, default 2)
- --fisheye-recompute-extrinsicsts
for fisheye, extrinsic will be recomputed after each iteration of intrinsic optimization
- --fisheye-fix-skew
for fisheye, skew coefficient (alpha) is set to zero and stay zero
- --fisheye-fix-principal-point
for fisheye,fix the principal point at the image center
- --fisheye-k-coefficients=NUM_COEFFS
for fisheye, number of radial distortion coefficients to use fixing to zero the rest (up to 4, default 4)
- --fisheye-check-conditions
for fisheye, the functions will check validity of condition number
- --disable_calib_cb_fast_check
uses the CALIB_CB_FAST_CHECK flag for findChessboardCorners
- --max-chessboard-speed=MAX_CHESSBOARD_SPEED
Do not use samples where the calibration pattern is moving faster than this speed in px/frame. Set to eg. 0.5 for rolling shutter cameras.
Unsynchronized Stereo
By default, the image_pipeline assumes that stereo cameras are triggered
to capture images simultaneously, and that matching image pairs have identical
timestamps. This is the ideal situation, but requires hardware support.
If your stereo pairs are not (or inexactly) synchronized, enable approximate
timestamp matching --approximate=0.01 option. This permits a “slop” of
0.01s between image pairs. If you still don’t see a display window, or it
is sporadically updated, try increasing the slop.
Dual Checkerboards
It is possible to use multiple size checkerboards to calibrate a camera.
To use multiple checkerboards, give multiple --size and --square
options for additional boards. Make sure the boards have different
dimensions, so the calibration system can tell them apart.
Camera Check
To run the command-line utility to check the calibration of a monocular camera:
ros2 run camera_calibration cameracheck --size 8x6 monocular:=/forearm image:=image_rect
To run the command-line utility to check the calibration of a stereo camera:
ros2 run camera_calibration cameracheck --size 8x6 stereo:=/wide_stereo image:=image_rect