-
 
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Package Summary

Tags No category tags.
Version 1.0.0
License Apache License, Version 2.0
Build type CATKIN
Use RECOMMENDED

Repository Summary

Checkout URI https://github.com/nasa/astrobee.git
VCS Type git
VCS Version master
Last Updated 2024-07-03
Dev Status UNMAINTAINED
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

This package detects AR tags in a camera frame

Additional Links

No additional links.

Maintainers

  • Astrobee Flight Software

Authors

  • Astrobee Flight Software

\page markertracking Marker Tracking

This folder provides a library for detecting AR tags using ALVAR.

Library

The library, in the src and include directories, provides a class MarkerCornerDetector which takes as input an image and a camera calibration. It then returns the detected marker IDs and the locations of their detected corners in the image.

ROS Node

The ROS node takes images and outputs AR tag features.

Inputs

  • Camera Images (topic specified on command line, via --image_topic)
  • AR Tag Specification (specified on command line, via --artag_file)

Outputs

  • /localization/ar_tags/features
  • /localization/ar_tags/registration

Overhead Tracking Node

This node is for use on spheresgoat in the granite lab. It reads images from the overhead camera, detects an AR tag on the robot, and publishes the ground truth robot pose to /ground_truth.

The node is configured in geometry.config and overhead_tracker.config.

Marker file usage

2D definitions

AR markers are specified in a config file (Lua). A typical example is dock_markers_print.

The marker file should define at least the following variables:

  • ar_resolution : defines the resolution (address space) of the marker
  • ar_margin : defines the outer black square thickness in cell size unit
  • drawing_width, drawing_height : width and height of the drawing (in drawing unit)
  • markers : table of markers specs with:
    • id : id of the markers
    • size : size of the outer square defining the markers
    • pos : table of x / y coordinate of the maker (drawing units)
    • white_margin : optional argument specifying a white margin to add around the marker (if not printed on white sheet)

The marker positions are defined in the regular SVG coordinate system: X positive to the right, Y positive down.

Since the SVG default drawing origin is the top left corner of the virtual sheet, it is possible to define an offset to place the markers at a specific location on the sheet:

  • drawing_xoffset, drawing_yoffset : x / y offset to apply to all drawing elements.

Optional variables are:

  • drawing_unit : default is ‘mm’
  • labels : table of labels
  • text_font : define the font to use for labels (drawing wise)
  • holes : table of holes markers
  • black_background : bool to specify that the sheet should be black_background

3D definitions

The coordinates of the AR markers are defined in a config file (Lua). A typical example is granite_lab_markers.config.

The config file needs to define one variable:

  • markers_world : table of marker specs
    • id : id of the marker
    • top_left : 3D coordinate of the marker top left corner
    • top_right : 3D coordinate of the marker top left corner
    • bottom_left : 3D coordinate of the marker top left corner

Currently granite_lab_markers.config uses the matrix.lua transform to compute the 3D coordinates of the AR markers in the world frame from their 2D definition on the dock.

Generate dock targets

<ars_src_dir> Top of the Astrobee Robotic Software (ARS) source tree <ars_build_dir> Directory where the software has been compiled, alternatively, it could be the install path of ARS.

Make sure the environment variable ASTROBEE_CONFIG_DIR as been correctly set to <ars_src_dir>/astrobee/config (or install path).

<ars_build_dir>/bin/generate_svg_markers dock_markers_print.config target2print.svg

Others

Important config files

  • dock_markers_specs.config : specification of the markers in 2D
  • dock_markers_print.config : includes dock_markers_specs, and adds printing features (offset on paper, labels, etc.)
  • granite_lab_markers.config : includes dock_makers_specs, and generate coordinates of the markers in 3D from the dock position and orientation. The variable markers_world contains the same list of markers than markers, but with the computed 3D coordinates.

Old XML format and new “config” format

The AR markers were originally described with an XML file. These files can still be processed with the marker_tracking/src/arxmlio.cc parser using LoadARTagLocation.

The new system standardize on the Lua config file, and at the same time offers much more flexibilty since positions can be programatically computed. The new parser is in marker_tracking/src/arconfigio.cc and use the function LoadARTagsConfig.

A converter (also acting as a simple test program) is available: marker_config2xml.

CHANGELOG
No CHANGELOG found.

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

  • launch/marker_tracking.launch
    • Copyright (c) 2017, United States Government, as represented by the
      • name [default: marker_tracking]
      • manager [default: ]

Messages

No message files found.

Services

No service files found

Plugins

Recent questions tagged marker_tracking at Robotics Stack Exchange

No version for distro galactic. Known supported distros are highlighted in the buttons above.

Package Summary

Tags No category tags.
Version 1.0.0
License Apache License, Version 2.0
Build type CATKIN
Use RECOMMENDED

Repository Summary

Checkout URI https://github.com/nasa/astrobee.git
VCS Type git
VCS Version master
Last Updated 2024-07-03
Dev Status UNMAINTAINED
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

This package detects AR tags in a camera frame

Additional Links

No additional links.

Maintainers

  • Astrobee Flight Software

Authors

  • Astrobee Flight Software

\page markertracking Marker Tracking

This folder provides a library for detecting AR tags using ALVAR.

Library

The library, in the src and include directories, provides a class MarkerCornerDetector which takes as input an image and a camera calibration. It then returns the detected marker IDs and the locations of their detected corners in the image.

ROS Node

The ROS node takes images and outputs AR tag features.

Inputs

  • Camera Images (topic specified on command line, via --image_topic)
  • AR Tag Specification (specified on command line, via --artag_file)

Outputs

  • /localization/ar_tags/features
  • /localization/ar_tags/registration

Overhead Tracking Node

This node is for use on spheresgoat in the granite lab. It reads images from the overhead camera, detects an AR tag on the robot, and publishes the ground truth robot pose to /ground_truth.

The node is configured in geometry.config and overhead_tracker.config.

Marker file usage

2D definitions

AR markers are specified in a config file (Lua). A typical example is dock_markers_print.

The marker file should define at least the following variables:

  • ar_resolution : defines the resolution (address space) of the marker
  • ar_margin : defines the outer black square thickness in cell size unit
  • drawing_width, drawing_height : width and height of the drawing (in drawing unit)
  • markers : table of markers specs with:
    • id : id of the markers
    • size : size of the outer square defining the markers
    • pos : table of x / y coordinate of the maker (drawing units)
    • white_margin : optional argument specifying a white margin to add around the marker (if not printed on white sheet)

The marker positions are defined in the regular SVG coordinate system: X positive to the right, Y positive down.

Since the SVG default drawing origin is the top left corner of the virtual sheet, it is possible to define an offset to place the markers at a specific location on the sheet:

  • drawing_xoffset, drawing_yoffset : x / y offset to apply to all drawing elements.

Optional variables are:

  • drawing_unit : default is ‘mm’
  • labels : table of labels
  • text_font : define the font to use for labels (drawing wise)
  • holes : table of holes markers
  • black_background : bool to specify that the sheet should be black_background

3D definitions

The coordinates of the AR markers are defined in a config file (Lua). A typical example is granite_lab_markers.config.

The config file needs to define one variable:

  • markers_world : table of marker specs
    • id : id of the marker
    • top_left : 3D coordinate of the marker top left corner
    • top_right : 3D coordinate of the marker top left corner
    • bottom_left : 3D coordinate of the marker top left corner

Currently granite_lab_markers.config uses the matrix.lua transform to compute the 3D coordinates of the AR markers in the world frame from their 2D definition on the dock.

Generate dock targets

<ars_src_dir> Top of the Astrobee Robotic Software (ARS) source tree <ars_build_dir> Directory where the software has been compiled, alternatively, it could be the install path of ARS.

Make sure the environment variable ASTROBEE_CONFIG_DIR as been correctly set to <ars_src_dir>/astrobee/config (or install path).

<ars_build_dir>/bin/generate_svg_markers dock_markers_print.config target2print.svg

Others

Important config files

  • dock_markers_specs.config : specification of the markers in 2D
  • dock_markers_print.config : includes dock_markers_specs, and adds printing features (offset on paper, labels, etc.)
  • granite_lab_markers.config : includes dock_makers_specs, and generate coordinates of the markers in 3D from the dock position and orientation. The variable markers_world contains the same list of markers than markers, but with the computed 3D coordinates.

Old XML format and new “config” format

The AR markers were originally described with an XML file. These files can still be processed with the marker_tracking/src/arxmlio.cc parser using LoadARTagLocation.

The new system standardize on the Lua config file, and at the same time offers much more flexibilty since positions can be programatically computed. The new parser is in marker_tracking/src/arconfigio.cc and use the function LoadARTagsConfig.

A converter (also acting as a simple test program) is available: marker_config2xml.

CHANGELOG
No CHANGELOG found.

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

  • launch/marker_tracking.launch
    • Copyright (c) 2017, United States Government, as represented by the
      • name [default: marker_tracking]
      • manager [default: ]

Messages

No message files found.

Services

No service files found

Plugins

Recent questions tagged marker_tracking at Robotics Stack Exchange