/rtabmap_ros

RTAB-Map's ROS package.

Primary LanguageC++BSD 3-Clause "New" or "Revised" LicenseBSD-3-Clause

RTAB-Map ROS

Build Status

RTAB-Map's ROS package.

For more information, demos and tutorials about this package, visit rtabmap_ros page on ROS wiki.

For the RTAB-Map libraries and standalone application, visit RTAB-Map's home page or RTAB-Map's wiki.

Installation

ROS2 distribution

Under construction: see ros2 branch.

ROS distribution

RTAB-Map is released as binaries in the ROS distribution.

  • Melodic
    $ sudo apt-get install ros-melodic-rtabmap-ros
    
  • Lunar
    $ sudo apt-get install ros-lunar-rtabmap-ros
    
  • Kinetic
    $ sudo apt-get install ros-kinetic-rtabmap-ros
    
  • Jade
    $ sudo apt-get install ros-jade-rtabmap-ros
    
  • Indigo
    $ sudo apt-get install ros-indigo-rtabmap-ros
    
    • For armhf architecture, ros-indigo-rtabmap-ros is not available. Install ros-indigo-rtabmap and build from source rtabmap_ros using the indigo-devel branch.
      $ cd catkin_ws
      $ git clone -b indigo-devel https://github.com/introlab/rtabmap_ros.git src/rtabmap_ros
      $ catkin_make -j1
      
  • Hydro:
    $ sudo apt-get install ros-hydro-rtabmap-ros
    
    • Note that rtabmap_ros Hydro binaries are stuck at version 0.8.12. To use the latest version, see Build from source below.

When launching rtabmap_ros's nodes, if you have the error error while loading shared libraries..., add the next line at the end of your ~/.bashrc to fix it:

$ export LD_LIBRARY_PATH=$LD_LIBRARY_PATH:/opt/ros/melodic/lib/x86_64-linux-gnu

Docker

  • Go to docker directory for an example.

Build from source

This section shows how to install RTAB-Map ros-pkg on ROS Hydro/Indigo/Jade/Kinetic/Lunar/Melodic (Catkin build). RTAB-Map works only with the PCL >=1.7, which is the default version installed with ROS Hydro/Indigo/Jade/Kinetic/Lunar/Melodic (Fuerte and Groovy are not supported).

  • The next instructions assume that you have set up your ROS workspace using this tutorial. I will use melodic prefix for convenience, but it should work with Hydro, Indigo, Jade, Kinetic and Lunar. The workspace path is ~/catkin_ws and your ~/.bashrc contains:

    $ source /opt/ros/melodic/setup.bash
    $ source ~/catkin_ws/devel/setup.bash
  1. Required dependencies

    • The easiest way to get all them (Qt, PCL, VTK, OpenCV, ...) is to install/uninstall rtabmap binaries:
      $ sudo apt-get install ros-melodic-rtabmap ros-melodic-rtabmap-ros
      $ sudo apt-get remove ros-melodic-rtabmap ros-melodic-rtabmap-ros
  2. Optional dependencies

    • If you want SURF/SIFT on Indigo/Jade (Hydro has already SIFT/SURF), you have to build OpenCV from source to have access to nonfree module. Install it in /usr/local (default) and the rtabmap library should link with it instead of the one installed in ROS.

      • On Indigo/Jade, I recommend to use latest 2.4 version (2.4.11) and build it from source following these instructions. RTAB-Map can build with OpenCV3+xfeatures2d module, but rtabmap_ros package will have libraries conflict as cv-bridge is depending on OpenCV2. If you want OpenCV3, you should build ros vision-opencv package yourself (and all ros packages depending on it) so it can link on OpenCV3.
      • On Kinetic/Lunar/Melodic, I recommend to use OpenCV3+xfeatures2d module already installed by ROS. You can also install OpenCV2, but rtabmap_ros package will have libraries conflict as cv-bridge is depending on OpenCV3. Thus if you want OpenCV2 on Kinetic/Lunar/Melodic, you should build ros vision-opencv package yourself (and all ros packages depending on it) so it can link on OpenCV2.
    • g2o: Use directly the binaries ros-melodic-libg2o. However, this g2o version (c++03 branch) built from source may be faster than the binaries (install libsuitesparse-dev before building g2o) and would be required to avoid some crashes. To build RTAB-Map against latest official g2o version built from source, g2o should be built with -DBUILD_WITH_MARCH_NATIVE=OFF to avoid some segmentation faults caused by Eigen.

    • GTSAM: Follow installation instructions from here. RTAB-Map needs latest version from source, it will not build with 3.2.1. Set cmake variable GTSAM_USE_SYSTEM_EIGEN=ON to make sure the same Eigen version is used across all dependencies to avoid crashes.

      git clone https://bitbucket.org/gtborg/gtsam.git
  3. Install RTAB-Map standalone libraries. Add -DCMAKE_INSTALL_PREFIX=~/catkin_ws/devel to cmake command below if you want to install in your Catkin's devel folder without sudo. Do not clone in your Catkin workspace.

    $ cd ~
    $ git clone https://github.com/introlab/rtabmap.git rtabmap
    $ cd rtabmap/build
    $ cmake ..  [<---double dots included]
    $ make
    $ sudo make install
  4. Install RTAB-Map ros-pkg in your src folder of your Catkin workspace.

    $ cd ~/catkin_ws
    $ git clone https://github.com/introlab/rtabmap_ros.git src/rtabmap_ros
    $ catkin_make -j1
    • Use catkin_make -j1 if compilation requires more RAM than you have (e.g., some files require up to ~1.8 GB to build).

Build from source for Nvidia Jetson

These instructions are for Jetpack 3 (Ubuntu 16.04 with ROS Kinetic). For Jetpack 4 (Ubuntu 18.04 with ROS Melodic), see this post.

To use rtabmap_ros on Jetson, you can follow the instructions above if you don't care if OpenCV is built for Tegra. However, if you want rtabmap to use OpenCV 4 Tegra, we must re-build vision_opencv stack from source too to avoid conflicts with vision_opencv stack binaries from ros (which are linked on a not optimized version of OpenCV). Here are the steps:

  1. Install JetPack with OpenCV on the Jetson.

  2. Do steps 1.2 and 1.3 from http://wiki.ros.org/kinetic/Installation/Ubuntu

  3. Install non-opencv dependent ros packages:

    • Jetpack 3: sudo apt-get install ros-kinetic-ros-base ros-kinetic-image-transport ros-kinetic-tf ros-kinetic-tf-conversions ros-kinetic-eigen-conversions ros-kinetic-laser-geometry ros-kinetic-pcl-conversions ros-kinetic-pcl-ros ros-kinetic-move-base-msgs ros-kinetic-rviz ros-kinetic-octomap-ros ros-kinetic-move-base libhdf5-openmpi-dev libsuitesparse-dev
  4. Do step 1.6 from http://wiki.ros.org/kinetic/Installation/Ubuntu

  5. Create your catkin workspace

  6. Optional: Install g2o and/or GTSAM dependencies as above (increase visual odometry and graph optimization accuracy).

  7. To avoid libGL undefined errors:

    $ cd /usr/lib/aarch64-linux-gnu/
    # Jetpack 3:
    $ sudo ln -sf tegra/libGL.so libGL.so
    # Jetpack 4:
    sudo ln -sf libGL.so.1.0.0 libGL.so
    
  8. To avoid libvtkproj4 errors:

    $ sudo ln -s /usr/lib/aarch64-linux-gnu/libvtkCommonCore-6.2.so /usr/lib/libvtkproj4.so
    $ sudo ln -s /usr/lib/aarch64-linux-gnu/libvtkCommonCore-6.2.so /usr/lib/aarch64-linux-gnu/libvtkproj4-6.2.so.6.2.0
    
  9. Install RTAB-Map standalone libraries. Add -DCMAKE_INSTALL_PREFIX=~/catkin_ws/devel to cmake command below if you want to install in your Catkin's devel folder without sudo. Do not clone in your Catkin workspace.

    $ cd ~
    $ git clone https://github.com/introlab/rtabmap.git rtabmap
    $ cd rtabmap/build
    $ cmake ..  [<---double dots included]
    $ make
    $ sudo make install
  10. Clone vision_opencv, image_transport_plugins and rtabmap_ros packages in your catkin_ws:

 $ cd ~/catkin_ws
 $ git clone https://github.com/ros-perception/vision_opencv src/vision_opencv
 $ git clone https://github.com/ros-perception/image_transport_plugins.git src/image_transport_plugins
 $ git clone https://github.com/introlab/rtabmap_ros.git src/rtabmap_ros
 $ catkin_make -j2

Update to new version

###########
# rtabmap
###########
$ cd rtabmap
$ git pull origin master
$ cd build
$ make
$ make install
# Do "sudo make install" if you installed rtabmap in "/usr/local"

###########
# rtabmap_ros
###########
$ roscd rtabmap_ros
$ git pull origin master
$ roscd
$ cd ..
$ catkin_make -j1 --pkg rtabmap_ros