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Package Summary

Tags No category tags.
Version 0.1.0
License AGPL-3.0-only
Build type AMENT_CMAKE
Use RECOMMENDED

Repository Summary

Checkout URI https://github.com/Ikerlan-KER/extrinsic_calibrator.git
VCS Type git
VCS Version humble
Last Updated 2024-11-18
Dev Status MAINTAINED
CI status No Continuous Integration
Released UNRELEASED
Tags No category tags.
Contributing Help Wanted (0)
Good First Issues (0)
Pull Requests to Review (0)

Package Description

ROS2 package designed to provide examples on how to use the extrinsic_calibrator_core package as well as useful ros2 launch files to launch the cameras, the calibrator, as well as a demonstration rviz file.

Additional Links

No additional links.

Maintainers

  • Josep Rueda Collell
  • Ander Gonzalez

Authors

No additional authors.

extrinsic_calibrator_examples

Overview

extrinsic_calibrator_examples is a ROS2 package designed to provide examples on how to use the extrinsic_calibrator_core package as well as useful ros2 launch files to launch the cameras, the calibrator, as well as a demonstration rviz file.

Features

  • Launch file to launch a set of cameras using the usb_camera package as well as the corresponding set of config files to configure the cameras.
  • Laucnh file to launch the rviz file to visualize the markers and the camera frames as well as the rviz file to configure it.
  • Launch file to launch all the previous, as well as the calibrator, them being the set of cameras, the rviz visualizer and the calibrator itself.

Configuration

The package provides configuration options through YAML files.

Camera configuration

Here you have an example configuration file l515.yaml file to configure the camera according to the usb_camera package, as well as the corresponding intrinsic calibration file.

/**:
    ros__parameters:
      video_device: "/dev/video12" # "ffplay /dev/video12" to test
      framerate: 6.0
      io_method: "mmap"
      frame_id: "cam2_frame"
      pixel_format: "yuyv"  # see usb_cam/supported_formats for list of supported formats
      av_device_format: "YUV422P"
      image_width: 640
      image_height: 480
      camera_name: "cam2"
      camera_info_url: "package://extrinsic_calibrator_examples/config/l515_intrinsics.yaml"
      brightness: -1
      contrast: -1
      saturation: -1
      sharpness: -1
      gain: -1
      auto_white_balance: true
      white_balance: 4000
      autoexposure: true
      exposure: 100
      autofocus: false
      focus: -1

Don’t forget to modify the parameter camera_info_url to properly link the camera configuration to the intrinsic calibration file.

image_width: 640
image_height: 480
camera_name: "cam2"
camera_matrix:
  rows: 3
  cols: 3
  data: [607.4058837890625, 0.0, 325.59991455078125, 0.0, 607.5341186523438, 247.25904846191406, 0.0, 0.0, 1.0]
distortion_model: "plumb_bob"
distortion_coefficients:
  rows: 1
  cols: 5
  data: [0.19551624357700348, -0.5865326523780823, -0.002620677463710308, 0.0008374004391953349, 0.5133219957351685]
rectification_matrix:
  rows: 3
  cols: 3
  data: [1.0, 0.0, 0.0, 0.0, 1.0, 0.0, 0.0, 0.0, 1.0]
projection_matrix:
  rows: 3
  cols: 4
  data: [607.4058837890625, 0.0, 325.59991455078125, 0.0, 0.0, 607.5341186523438, 247.25904846191406, 0.0, 0.0, 0.0, 1.0, 0.0]


In case you want to launch more cameras with the same launch file, simply add them as additional nodes in the launch file launch_usb_cameras.launch.py:

d435_config = os.path.join(config_dir, 'd435.yaml')
l515_config = os.path.join(config_dir, 'l515.yaml')
# d457_config = os.path.join(config_dir, 'd457.yaml')

return LaunchDescription([
    Node(
        package='usb_cam',
        executable='usb_cam_node_exe',
        name='d435_camera',
        namespace='camera_1',
        parameters=[d435_config],
        output='screen'
    ),
    Node(
        package='usb_cam',
        executable='usb_cam_node_exe',
        name='l515_camera',
        namespace='camera_2',
        parameters=[l515_config],
        output='screen'
    ),
    # Node(
    #     package='usb_cam',
    #     executable='usb_cam_node_exe',
    #     name='d457_camera',
    #     namespace='camera_3',
    #     parameters=[d457_config],
    #     output='screen'
    # ),
])


Usage

Launching the Cameras

Using the usb_cam package for your camera streams,you can launch the set of all cameras using:

ros2 launch extrinsic_calibrator_examples launch_usb_cameras.launch.py

Launching the rviz visualizer

An example rviz config file is provided which includes displays for the /camera_1/image_raw/detected_markers topic and the /camera_2/image_raw/detected_markers topic as well as the tf2 display of the found markers and cameras. To launch it, use:

ros2 launch extrinsic_calibrator_examples launch_rviz.launch.py

Launching Both Cameras and the Calibrator

To simultaneously launch the cameras, the rviz visualizer and the extrinsic calibrator, use:

ros2 launch extrinsic_calibrator_examples launch_extrinsic_calibrator.launch.py

Dependencies

The package relies on the following libraries and ROS2 packages:

  • extrinsic_calibrator_core for the core functionality
  • usb_cam package for camera streaming
  • rviz2 for visualization

To install the necessary dependencies, ensure you run:

# update libraries
sudo apt-get update
# install ros dependencies
rosdep update

Author Information

Authors:

Created: October 2024

Affiliation: IKERLAN

setup_paint

Citation

If you use this code, please cite:
Josep Rueda Collell. “ROS2 Extrinsic Camera Calibrator using ArUco Markers”. (2024).


Developed as part of AI-PRISM project.

AI Powered human-centred Robot Interactions for Smart Manufacturing

Horizon Europe – Grant Agreement number 101058589

Funded by the European Union. Views and opinions expressed are however those of the author(s) only and do not necessarily reflect those of the European Union. The European Union cannot be held responsible for them. Neither the European Union nor the granting authority can be held responsible for them.

License

This software is provided under a dual license system. You may choose between:

  • GNU Affero General Public License v3: For open-source development, subject to the conditions of this license.
  • Commercial License: For proprietary use. For more details on the commercial license, please contact us at info@ikerlan.es.

Please see the LICENSE file for the complete terms and conditions of each license option.

CHANGELOG
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Wiki Tutorials

This package does not provide any links to tutorials in it's rosindex metadata. You can check on the ROS Wiki Tutorials page for the package.

Launch files

No launch files found

Messages

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Services

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Plugins

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