Show EOL distros:
Husky (ROS Fuerte)
ROS Software Maintainer: Clearpath Robotics
Husky A200 is a rugged, outdoor-ready unmanned ground vehicle (UGV), suitable for research and rapid prototyping applications. All of Husky's basic capabilities are exposed through the clearpath_husky stack.
To install the software on your control computer, first ensure that you have Fuerte installed. Then grab the Husky stacks using package management:
sudo apt-get install ros-fuerte-husky-robot
If you would like to use an overlay instead, you can prep one by running:
rosinstall OVERLAY_NAME https://raw.github.com/clearpathrobotics/clearpath_husky/master/husky_fuerte.rosinstall
Depending how you want to use Husky, there are two recommended approaches for using the Husky stack.
Contents
Ad-hoc
For computers which are only sometimes used for Husky, it makes sense to start everything you want, when you want it. Ensure that the robot is powered on, and the USB->Serial adaptor is connected. Then run:
roslaunch husky_bringup base.launch port:=/dev/ttyUSB0
Now plug in a joystick, and in another terminal, run:
roslaunch husky_bringup teleop.launch
Hold button 1 (the deadman switch) and you should be driving.
Installed
When you're setting up a computer to be embedded in Husky, you probably want the base nodes to come up automatically on startup. When you buy a computer from Clearpath with your Husky, it will come configured like this, but to do it yourself, follow these steps:
roscd husky_bringup/upstart sudo ./install.bash
By default, this will launch on the IP of the eth0 interface, as user "administrator", and using the launch files in husky_bringup/launch/core. To change any of these elements, edit the install.bash script. If you wish to launch additional software on startup (for example, sensor drivers or a teleop script), copy the launch files into that directory and re-run the install script.
Now you can start the service and run teleop:
sudo service husky-core start roslaunch husky_teleop teleop.launch
The husky-core service is now installed and will now start automatically when the eth0 interface comes up (on boot, if you assign it a static IP or plug it into an onboard router).
Beyond
When you're ready to mount more sensors and equipment, the onboard 5V, 12V, and 24V power supplies will provide the necessary juice to your payloads.
For more information or to receive a quote, please visit us online.
Library Overview
clearpath_base: Provides a kinematic driver node which consumes geometry_msgs/Twist messages on the cmd_vel topic and interprets them as serial movement commands (in m/s) to Husky. This node provides over ROS topics voltage and current status, estop status, battery state, and encoder information.
husky_bringup: Provides launcher with recommended configuration for Husky as well as a diagnostics node, dead-reckoning odometry, and some standard payload launchers.
husky_localization: Provides an example of using robot_pose_ekf to improve the Husky's localization estimate.
husky_navigation: Example launchfiles for the navigation stack as well as gmapping-based mapping and amcl-based localization.
1. Basic Configuration
Component |
ROS package/stack |
Robot-specific Messages |
2. Hardware Drivers
Component |
ROS package/stack |
Actuator Drivers |
|
Sensor Drivers |
3. Simulation and Support
URDF & Gazebo models |
|
Dead Reckoning |
|
rviz Interactive Markers |
4. High-Level Capabilities
Component |
ROS package/stack |
Teleop |
|
Basic Localization |
|
Mapping, Localization, Navigation |
Media
Husky (ROS Groovy)
ROS Software Maintainer: Clearpath Robotics
Husky A200 is a rugged, outdoor-ready unmanned ground vehicle (UGV), suitable for research and rapid prototyping applications. All of Husky's basic capabilities are exposed through the clearpath_husky stack.
If you are using Fuerte you should follow the instructions here
To install the software on your control computer, first ensure that you have Groovy installed. Then grab the Husky stacks using package management:
sudo apt-get install ros-groovy-clearpath-husky-robot
Starting the Nodes
Ensure that the robot is powered on, and the USB->Serial adaptor is connected. Then run:
roslaunch clearpath_base example.launch port:=/dev/ttyUSB0
Now plug in a joystick, and in another terminal, run:
roslaunch clearpath_teleop example.launch
Hold button 1 (the deadman switch) and you should be driving.
Beyond
When you're ready to mount more sensors and equipment, the onboard 5V, 12V, and 24V power supplies will provide the necessary juice to your payloads.
For more information or to receive a quote, please visit us online.
1. Basic Configuration
Component |
ROS package/stack |
Robot-specific Messages |
2. Hardware Drivers
Component |
ROS package/stack |
Actuator Drivers |
|
Sensor Drivers |
3. Simulation and Support
URDF models |
|
Dead Reckoning |
|
rviz Interactive Markers |
|
Gazebo Plugins and Examples |
4. High-Level Capabilities
Component |
ROS package/stack |
Teleop |
|
Basic Localization |
|
Mapping, Localization, Navigation |
Media
Husky (ROS Hydro)
ROS Software Maintainer: Clearpath Robotics
Husky is a rugged, outdoor-ready unmanned ground vehicle (UGV), suitable for research and rapid prototyping applications. Husky fully supports ROS—all of the packages are available in the Husky github org.
To install the software on your control computer, first ensure that you are using Ubuntu 12.0.4 LTS, and have ROS Hydro installed. Then grab the Husky robot packages:
sudo apt-get install ros-hydro-husky-robot
If you'd like the simulation and visualization components, please also grab the desktop packages:
sudo apt-get install ros-hydro-husky-desktop
If you are using a previous version of ROS, please see the ROS Groovy or ROS Fuerte version of this page.
Simulation
If you're not working on a real-life Husky, please see the husky_simulator page to get started simulating Husky in Gazebo.
Using Husky
Ensure that the robot is powered on, and the USB->Serial adaptor is connected. Then run:
roslaunch husky_base base.launch port:=/dev/ttyUSB0
Now plug in a joystick, and in another terminal, run:
roslaunch husky_teleop teleop.launch
Hold button 1 (the deadman switch) and you should be driving.
Upstart Installation
If the PC you are setting up will be used exclusively with Husky, we provide a script which creates an upstart job called husky-core to launch the basic Husky software upon system startup. Set it up like so:
rosrun husky_bringup install
The husky-core job comes up with the eth0 network device by default. Our suggested configuration is to set that device to a static IP and use it as your robot's network service port. You can stop, start, and restart the job like any other upstart job:
sudo service husky-core restart
To add more launch files to the job, copy them into the /etc/ros/hydro/husky-core.d folder. Next time the job comes up, your software will launch along with it. For details, please see the robot_upstart package.
If the computer you are setting up is one purchased from Clearpath Robotics with a factory sensor suite, the install script may be able to automatically detect some of your devices and add appropriate launchers files to the husky-core job.
For more information or to receive a quote, please visit us online.
Supporting Packages
Please click through to any of these for specific usage examples.
URDF model |
|
rviz tools |
|
Simulation |
Husky
ROS Software Maintainer: Clearpath Robotics
Husky is a rugged, outdoor-ready unmanned ground vehicle (UGV), suitable for research and rapid prototyping applications. Husky fully supports ROS—all of the packages are available in the Husky github org.
For more information or to receive a quote, please visit us online.
Installation
These tutorials assume that you are comfortable with ROS and the catkin build system. Please familiarize yourself using the ROS and catkin tutorials.
These tutorials will guide you on setting up a Husky robot PC with ROS Indigo. If you are upgrading from an earlier ROS distribution, please make sure to do a thorough backup of your system.
- Backing Up Husky Configuration
Backing Up the Husky robot PC to preserve existing/factory configuration.
- Install and Configure Husky Software
Setting up the Husky robot PC from scratch using an installer image.
- Customize Husky Configuration
Adding customizations to the base Husky robot configuration.
Usage
Husky can be used in both real and simulated environments. If you are using a physical Husky, please make sure all your peripherals are plugged in, turn on the robot, and skip directly to step 2.
- Simulating Husky
How to bring up a simulated Husky robot using the Gazebo simulator.
- Interfacing with Husky
How to visualize, control, and communicate with a real or simulated Husky robot from your desktop.
Demo Applications
A simulated Husky can run several sample demonstrations out of the box. These may require additional tuning and/or configuration prior to running on a physical Husky robot.
1. Navigation
2. Manipulation
- Husky UR5 Mobile Manipulation Demo (Simulation)
Running a Husky UR5 with mobile manipulation capabilities.
Package Components
Please click through to any of the below packages for component information.
common: |
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application: |