Pointcloud registration using correspondences is inefficient and prone to errors in the many steps of correspondence extraction, description, and matching. Similarly, the most widespread registration methods work only locally, requiring an initial guess already close to the true solution, something unaffordable in real robotic deployments. We propose an algorithm for the registration of partially overlapping pointclouds that operates at the global level and on the raw data, i.e., no initial guess as well as no candidate matches are required. We exploit the properties of Fourier analysis to derive a novel registration pipeline based on the cross-correlation of the phases.
PHASER is composed of the following packages:
- phaser_core: The registration core of PHASER. Contains the spherical and spatial correlation.
- phaser_ros: This is a ROS wrapper to use the PHASER as a registration framework. Hardly used anymore.
- phaser_common: Exposes common classes, utils and models.
- phaser_pre: Experimental preprocessing of pointcloud data.
- phaser_viz: Provides visualization functions.
- phaser_test_data: Contains example data as PLYs.
- phaser_share: Provides run and build scripts.
PHASER requires ROS and some other dependencies to be installed:
# Some standard requirements
sudo apt-get install -y doxygen autotools-dev \
dh-autoreconf libboost-all-dev python-setuptools git g++ cppcheck \
libgtest-dev python-git pylint \
python-termcolor liblog4cplus-dev cimg-dev python-wstool \
python-catkin-tools
# Ubuntu 18.04 / ROS Melodic.
sudo apt-get install -y clang-format-6.0 ros-melodic-pcl-conversions \
libpcl-dev libnlopt-dev
For the remaining package dependencies, run within the caktin
workspace
wstool init
wstool merge phaser/dependencies.rosinstall
wstool update
Building the project:
catkin build phaser_ros
Optionally one can build an run all unit tests using:
./phaser_share/run_build_tests
However, this might take some minutes to finish.
The package phaser_core
provides a simple test driver to run PHASER using two pointclouds stored as .ply
files.
Additionally, run script for the test driver is provided in the phaser_share
directory.
The initial alignment of the two pointclouds is as follows:
By running
./phaser_share/run_phaser_core_driver
the registered pointcloud is written to disk as registered.ply
. You might need to adapt the source and target pointcloud paths. Furthermore, other pointcloud examples can be found in the phaser_test_data/test_clouds/os0/
directory.
In this particular case, the registration is configured to be very fine. Thus, it will take a few seconds to finish:
Our paper is available at
Bernreiter, Lukas, Lionel Ott, Juan Nieto, Roland Siegwart, and Cesar Cadena.
"PHASER: A Robust and Correspondence-Free Global Pointcloud Registration."
IEEE Robotics and Automation Letters 6, no. 2 (2021): 855-862. [Link] [ArXiv].
BibTex:
@article{bernreiter2021phaser,
title={PHASER: A Robust and Correspondence-Free Global Pointcloud Registration},
author={Bernreiter, Lukas and Ott, Lionel and Nieto, Juan and Siegwart, Roland and Cadena, Cesar},
journal={IEEE Robotics and Automation Letters},
volume={6},
number={2},
pages={855--862},
year={2021},
publisher={IEEE}
}