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AWS RoboMaker Sample Application - Open Source Rover

This sample application demonstrates and end-to-end robotics system with the Open Source Rover from NASA JPL. It includes a URDF file modeled after the popular open source project. To learn more about the open source rover, check it out here

RoboMaker sample applications include third-party software licensed under open-source licenses and is provided for demonstration purposes only. Incorporation or use of RoboMaker sample applications in connection with your production workloads or a commercial products or devices may affect your legal rights or obligations under the applicable open-source licenses. Source code information can be found here.

Requirements

  • ROS Kinetic - Other versions may work, however they have not been tested
  • Colcon - Used for building and bundling the application.

Build

Pre-build commands

sudo apt-get update
rosdep update

Robot

cd robot_ws
rosws update
rosdep install --from-paths src --ignore-src -r -y
colcon build

Simulation

cd simulation_ws
rosws update
rosdep install --from-paths src --ignore-src -r -y
colcon build

Run

Launch the application with the following commands:

Running Robot Application

source robot_ws/install/local_setup.sh
roslaunch martian_detector martian_detector.launch

Running Simulation Application

source simulation_ws/install/local_setup.sh
roslaunch rover_gazebo main_with_objects.launch

Using this sample with RoboMaker

You first need to install colcon-ros-bundle. Python 3.5 or above is required.

pip3 install -U setuptools
pip3 install colcon-ros-bundle

After colcon-ros-bundle is installed you need to build your robot or simulation, then you can bundle with:

# Bundling Robot Application
cd robot_ws
source install/local_setup.sh
colcon bundle

# Bundling Simulation Application
cd simulation_ws
source install/local_setup.sh
colcon bundle

This produces the artifacts robot_ws/bundle/output.tar and simulation_ws/bundle/output.tar respectively. You'll need to upload these to an s3 bucket, then you can use these files to create a robot application, create a simulation application, and create a simulation job in RoboMaker.

ROS Nodes launched by this Sample

Nodes created by this sample

/motion
/notifier
/object_detector

Running the demonstration and workshop

To roam around the simulated mars world and find martians, you can use the teleop_twist_keyboard commands by running the following statement in your terminal:

rosrun teleop_twist_keyboard teleop_twist_keyboard.py

Full instructions on how to setup the AWS cloud infrastructure and run the demo can be found at: https://www.robomakerworkshops.com.

License

MIT-0 - See LICENSE for further information

How to Contribute

Create issues and pull requests against this Repository on Github

About

This ROS1 Kinetic sample application for the Open Source Rover from JPL NASA

www.robomakerworkshops.com/mars-rover/

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MIT-0 license

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