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Camera calibration
==================
Any camera device have to be calibrated to compensate its optical distorsion.
![Camera calibration](../../img/camera_calibration.png)
The first step to calibrate a camera is to create an [ArUcoBoard](../../../argaze/#argaze.ArUcoMarkers.ArUcoBoard) like in the code below:
``` python
from argaze.ArUcoMarkers import ArUcoMarkersDictionary, ArUcoBoard
# Create ArUco dictionary
aruco_dictionary = ArUcoMarkersDictionary.ArUcoMarkersDictionary('DICT_APRILTAG_16h5')
# Create an ArUco board of 7 columns and 5 rows with 5 cm squares with 3cm ArUco markers inside
aruco_board = ArUcoBoard.ArUcoBoard(7, 5, 5, 3, aruco_dictionary)
# Export ArUco board with 300 dpi resolution
aruco_board.save('./calibration_board.png', 300)
```
Then, the calibration process needs to make many different captures of an [ArUcoBoard](../../../argaze/#argaze.ArUcoMarkers.ArUcoBoard) through the camera and then, pass them to an [ArUcoDetector](../../../argaze/#argaze.ArUcoMarkers.ArUcoDetector.ArUcoDetector) instance to detect board corners and store them as calibration data to an [ArUcoOpticCalibrator](../../../argaze/#argaze.ArUcoMarkers.ArUcoOpticCalibrator) for final calibration process.
![Calibration step](../../img/camera_calibration_step.png)
The sample of code below shows how to detect board corners into camera images, store detected corners then process them to build calibration data and, finally, save it into a JSON file:
``` python
from argaze.ArUcoMarkers import ArUcoMarkersDictionary, ArUcoOpticCalibrator, ArUcoBoard, ArUcoDetector
# Create ArUco dictionary
aruco_dictionary = ArUcoMarkersDictionary.ArUcoMarkersDictionary('DICT_APRILTAG_16h5')
# Create ArUco optic calibrator
aruco_optic_calibrator = ArUcoOpticCalibrator.ArUcoOpticCalibrator()
# Create ArUco board of 7 columns and 5 rows with 5 cm squares with 3cm aruco markers inside
# Note: This board is the one expected during further board tracking
expected_aruco_board = ArUcoBoard.ArUcoBoard(7, 5, 5, 3, aruco_dictionary)
# Create ArUco detector
aruco_detector = ArUcoDetector.ArUcoDetector(dictionary=aruco_dictionary, marker_size=3)
# Capture images from a live Full HD video stream (1920x1080)
while video_stream.is_alive():
image = video_stream.read()
# Detect all board corners in image
aruco_detector.detect_board(image, expected_aruco_board, expected_aruco_board.markers_number)
# If board corners are detected
if aruco_detector.board_corners_number > 0:
# Draw board corners to show that board tracking succeeded
aruco_detector.draw_board(image)
# Append tracked board data for further calibration processing
aruco_optic_calibrator.store_calibration_data(aruco_detector.board_corners, aruco_detector.board_corners_identifier)
# Start camera calibration processing for Full HD image resolution
print('Calibrating camera...')
optic_parameters = aruco_optic_calibrator.calibrate(aruco_board, dimensions=(1920, 1080))
if optic_parameters:
print('\nCalibration succeeded!')
print(f'\nRMS:\n{optic_parameters.rms}')
print(f'\nDimensions:\n{optic_parameters.dimensions[0]}x{optic_parameters.dimensions[1]}')
print(f'\nCamera matrix:\n{optic_parameters.K}')
print(f'\nDistortion coefficients:\n{optic_parameters.D}')
optic_parameters.to_json(f'{args.output}/calibration.json')
print(f'\ncalibration.json file exported into {args.output} folder')
else:
print('\nCalibration error.')
```
Then, the camera calibration data are loaded to compensate optical distorsion during [ArUcoMarkers](../../../argaze/#argaze.ArUcoMarkers.ArUcoMarker) detection:
``` python
from argaze.ArUcoMarkers import ArUcoOpticCalibrator
# Load camera optic parameters
optic_parameters = ArUcoOpticCalibrator.OpticParameters.from_json('./calibration.json')
```
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