Drive a Grizzly ================ .. warning:: Grizzly is a discontinued platform. Please see :doc:`Drive a Husky ` or :doc:`Drive a Warthog ` for currently-supported platforms. Updating the Virtual Machine ------------------------------ Open a terminal window (Ctrl + Alt + T), and enter the following: .. parsed-literal:: sudo apt-get update sudo apt-get install ros-noetic-grizzly-simulator sudo apt-get install ros-noetic-grizzly-desktop sudo apt-get install ros-noetic-grizzly-navigation Running a Virtual Grizzly -------------------------- Open a terminal window, and enter: .. parsed-literal:: roslaunch grizzly_gazebo grizzly_empty_world.launch Open another terminal window, and enter: .. parsed-literal:: roslaunch grizzly_viz view_robot.launch You should be given two windows, both showing a yellow, rugged robot (Grizzly!). The left one shown is Gazebo. This is where we get a realistic simulation of our robot, including wheel slippage, skidding, and inertia. We can add objects to this simulation, or even entire maps of real places. .. image:: grizzlysim.png :scale: 75% This window below is RViz. This tool allows us to see sensor data from a robot, and give it commands (in a future post). RViz is a more simplified simulation in the interest of speed. .. image:: grizzlyviz.png :scale: 75% We can now command the robot to go forwards. Open a terminal window, and copy the following: .. parsed-literal:: rostopic pub /cmd_vel geometry_msgs/Twist "linear: x: 0.5 y: 0.0 z: 0.0 angular: x: 0.0 y: 0.0 z: 0.0" In the above command, we publish to the cmd_vel topic, of topic type **geometry_msgs/Twist**. The data we publish tells the simulated Grizzly to go forwards at 0.5m/s, without any rotation. You should see your Grizzly move forwards. In the gazebo window, you might also notice simulated wheel slip, and skidding.