You're reading the documentation for an older, but still supported, version of ROS 2. For information on the latest version, please have a look at Humble.
Experimenting with a dummy robot
In this demo, we present a simple demo robot with all components from publishing joint states over publishing fake laser data until visualizing the robot model on a map in RViz.
Launching the demo
We assume your ROS 2 installation dir as
~/ros2_ws. Please change the directories according to your platform.
To start the demo, we execute the demo bringup launch file, which we are going to explain in more details in the next section.
source ~/ros2_ws/install/setup.bash ros2 launch dummy_robot_bringup dummy_robot_bringup.launch.py
You should see some prints inside your terminal along the lines of the following:
[INFO] [launch]: process[dummy_map_server-1]: started with pid  [INFO] [launch]: process[robot_state_publisher-2]: started with pid  [INFO] [launch]: process[dummy_joint_states-3]: started with pid  [INFO] [launch]: process[dummy_laser-4]: started with pid  Initialize urdf model from file: /home/mikael/work/ros2/bouncy_ws/install_debug_isolated/dummy_robot_bringup/share/dummy_robot_bringup/launch/single_rrbot.urdf Parsing robot urdf xml string. Link single_rrbot_link1 had 1 children Link single_rrbot_link2 had 1 children Link single_rrbot_link3 had 2 children Link single_rrbot_camera_link had 0 children Link single_rrbot_hokuyo_link had 0 children got segment single_rrbot_camera_link got segment single_rrbot_hokuyo_link got segment single_rrbot_link1 got segment single_rrbot_link2 got segment single_rrbot_link3 got segment world Adding fixed segment from world to single_rrbot_link1 Adding moving segment from single_rrbot_link1 to single_rrbot_link2 [INFO] [dummy_laser]: angle inc: 0.004363 [INFO] [dummy_laser]: scan size: 1081 [INFO] [dummy_laser]: scan time increment: 0.000028 Adding moving segment from single_rrbot_link2 to single_rrbot_link3 Adding fixed segment from single_rrbot_link3 to single_rrbot_camera_link Adding fixed segment from single_rrbot_link3 to single_rrbot_hokuyo_link
If you now open in a next terminal your RViz, you’ll see your robot. 🎉
$ source <ROS2_INSTALL_FOLDER>/setup.bash $ rviz2
This opens RViz2. Assuming you have your dummy_robot_bringup still launched, you can now add the TF display plugin and configure your global frame to
world. Once you did that, you should see a similar picture:
If you have a closer look at the launch file, we start a couple of nodes at the same time.
The first two packages are relatively simple. The
dummy_map_server constantly publishes an empty map with a periodic update. The
dummy_laser does basically the same; publishing dummy fake laser scans.
dummy_joint_states node is publishing fake joint state data. As we are publishing a simple RRbot with only two joints, this node publishes joint states values for these two joints.
robot_state_publisher is doing the actual interesting work. It parses the given URDF file, extracts the robot model and listens to the incoming joint states. With this information, it publishes TF values for our robot which we visualize in RViz.