The Open-RMF platform for multi-fleet robot management.
Open-RMF is a collection of packages, some of which have ROS 2 dependencies. For convenience, we distribute and install Open-RMF along with ROS 2 and is currently supported for the following ROS 2 distributions:
- Humble Hawksbill (
humble
) - Iron Irwini (
iron
) - Jazzy Jalisco (
jazzy
) - Rolling Ridley (
rolling
)
We primarily support Debian packages on Ubuntu
and select RPM packages for RHEL/Fedora
for both amd64
and aarch64
architectures.
Options for installing Open-RMF:
If you want to try Open-RMF we recommend installing the binaries. Building from source is better suited for developers who wish to add new features or fix bugs.
Instruction below are aimed at Ubuntu
.
First please follow the installation instructions to install ROS 2 for the distro
of choice from supported versions listed above.
It is recommended to install ROS 2 via binary debians.
Note: In order to install Open-RMF binaries, it is important to setup your computer to install ROS packages. This is a prerequisite step when installing ROS 2 debian binaries.
Install all non-ROS dependencies of Open-RMF packages,
sudo apt update && sudo apt install ros-dev-tools -y
rosdep
helps install dependencies for ROS packages across various distros and will be installed along with ros-dev-tools
.
However, it is important to update it.
sudo rosdep init # run if first time using rosdep.
rosdep update
Update colcon mixin
if you have not done so previously.
colcon mixin add default https://raw.githubusercontent.com/colcon/colcon-mixin-repository/master/index.yaml
colcon mixin update default
First follow the instruction in the Setup section.
Finally install Open-RMF debian packages for the distro
of choice.
sudo apt update && sudo apt install ros-<distro>-rmf-dev
Note: This will install all necessary debian packages to run Open-RMF except for those in rmf_demos for reasons described in this issue.
To build rmf_demos
from source, first determine the version of rmf_demos
that corresponds to the latest binary release for your distro.
For example, if you installed the humble
binaries of Open-RMF, the version of rmf_demos
for this release can be found in the rmf.repos
file in the humble-release
branch of this repository, for example here.
Next create a ROS 2 workspace and build rmf_demos
from source.
Replace the 2.0.3
tag below with the version of rmf_demos
for your distribution.
mkdir ~/rmf_ws/src -p
cd ~/rmf_ws/src
git clone https://github.com/open-rmf/rmf_demos.git -b 2.0.3
cd ~/rmf_ws
colcon build
To run some demonstrations of Open-RMF in simulation, see README in rmf_demos.
First follow the instruction in the Setup section.
Due to newer changes in the source code, there might be conflicts and compilation errors with older header files installed by the binaries. Hence before proceeding, make sure to uninstall all Open-RMF binaries for the ROS 2 distro that will be sourced for the build.
sudo apt purge ros-<distro>-rmf* && sudo apt autoremove
Open-RMF is a collection of several repositories/packages. The rmf.repos provides a snapshot of these packages. This repository stores different versions of this file depending on the ROS 2 distribution and version of the release. Depending on the use case, you may choose to download this file from one of the following branches in this repository:
main
: Latest version of all packages which may or may not have a binary release yet. This is recommended for development and bug fixes.<distro>
: The latest version of the packages for a specific ROS 2 distro. This may be different frommain
as new API/ABI breaking features merged intomain
will not be backported into<distro>
branches. The packages downloaded from<distro>
may have changes that are not yet available in binaries.<distro>-release
: Where<distro>
is a supported ROS 2 distribution (eg.humble
). The version of packages here will correspond to those of the latest binaries available for this distro.release-<distro>-YYMMDD
: A tag for a specific<distro>
where the version of packages correspond to those of the binaries available onYYMMDD
. See Releases for additional information for each release. This is useful if users would like to build packages from an older release.
Setup a new ROS 2 workspace and pull in the demo repositories using vcs
.
Replace main
with the branch of your choice.
mkdir -p ~/rmf_ws/src
cd ~/rmf_ws
wget https://raw.githubusercontent.com/open-rmf/rmf/main/rmf.repos
vcs import src < rmf.repos
Update your rosdep definitions and install dependencies via rosdep
.
cd ~/rmf_ws
sudo apt update
rosdep update
source /opt/ros/humble/setup.bash # replace humble with preferred ROS 2 distro.
rosdep install --from-paths src --ignore-src --rosdistro $ROS_DISTRO -y
NOTE: We strongly recommend compiling Open-RMF packages with clang
as compiler and lld
as linker.
sudo apt update
sudo apt install clang clang-tools lldb lld libstdc++-12-dev
Compile the workspace after sourcing the ROS 2 distro of choice.
cd ~/rmf_ws
export CXX=clang++
export CC=clang
colcon build --mixin release lld
NOTE: The first time the build occurs, many simulation models will be downloaded from Gazebo Fuel to populate the scene when the simulation is run. As a result, the first build can take a very long time depending on the server load and your internet connection (may be up to an hour). To build without downloading models append
--cmake-args -DNO_DOWNLOAD_MODELS=On
to thecolcon build
To run some demonstrations of Open-RMF in simulation, see README in rmf_demos.
We also provide a docker image for Open-RMF.
Pull the docker image from open-rmf/rmf
github registry (setup refer here).
docker pull ghcr.io/open-rmf/rmf/rmf_demos:latest
docker tag ghcr.io/open-rmf/rmf/rmf_demos:latest rmf:latest
Run it!
docker run -it --network host rmf:latest bash -c "export ROS_DOMAIN_ID=9; ros2 launch rmf_demos_gz office.launch.xml headless:=1"
This will run rmf_demos
in headless mode.
(Experimental) User can also run rmf_demos
in “non-headless” graphical form, via rocker.
Demonstrations of Open-RMF are shown in rmf_demos.
A near-term roadmap of the entire Open-RMF project (including and beyond rmf_traffic
) can be found in the user manual here.
Instructions on how to integrate your system with Open-RMF can be found here.
A number of commercial robots, infrastructure systems, workcells and devices have been integrated with Open-RMF and links to their adapters are available in the awesome_adapter repository
Help us add to this list!
A helpful starting point for integrating your fleet with RMF is the fleet_adapter_template.
If your robot/fleet exposes native ROS navigation endpoints, it can be readily integrated with free_fleet.
More information for on the development and release process may be found here