A suite of algorithms for learning-aided mapping. Includes implementations of Gaussian process regression and Bayesian generalized kernel inference for occupancy prediction using test-data octrees. A demonstration of the system can be found here: https://youtu.be/SRXLMALpU20
This implementation as it stands now is primarily intended to enable replication of these methods over a few datasets. In addition to the implementation of relevant learning algorithms and data structures, we provide two sets of range data (sim_structured and sim_unstructured) collected in Gazebo for demonstration. Parameters of the sensors and environments are set in the relevant yaml files contained in the config/datasets directory, while configuration of parameters for the mapping methods can be found in config/methods.
The current package runs with ROS Noetic, but for testing in ROS Kinetic and ROS Indigo, you can set the CMAKE flag in the CMAKELists file to c++11.
Octomap is a dependancy, which can be installed using the command below. Change distribution as necessary.
$ sudo apt-get install ros-noetic-octomap*The repository is set up to work with catkin, so to get started you can clone the repository into your catkin workspace src folder and compile with catkin_make:
my_catkin_workspace/src$ git clone https://github.com/RobustFieldAutonomyLab/la3dm.git
my_catkin_workspace/src$ cd ..
my_catkin_workspace$ catkin_make
my_catkin_workspace$ source ~/my_catkin_workspace/devel/setup.bashTo run the demo on the sim_structured environment, simply run:
$ roslaunch la3dm la3dm_static.launchwhich by default will run using the BGKOctoMap-LV method. If you want to try a different method or dataset, simply pass the
name of the method or dataset as a parameter. For example, if you want to run GPOctoMap on the sim_unstructured map,
you would run:
$ roslaunch la3dm la3dm_static.launch method:=gpoctomap dataset:=sim_unstructuredIf you found this code useful, please cite the following:
Improving Obstacle Boundary Representations in Predictive Occupancy Mapping (PDF) - describes the latest BGKOctoMap-LV addition to the LA3DM library:
@article{pearson2022improving,
title={Improving Obstacle Boundary Representations in Predictive Occupancy Mapping},
author={Pearson, Erik and Doherty, Kevin and Englot, Brendan},
journal={Robotics and Autonomous Systems},
volume={153},
pages={104077},
year={2022},
publisher={Elsevier}
}
Learning-Aided 3-D Occupancy Mapping with Bayesian Generalized Kernel Inference (PDF) - describes the BGKOctoMap and BGKOctoMap-L approaches originally included in the LA3DM library.
@article{Doherty2019,
doi = {10.1109/tro.2019.2912487},
url = {https://doi.org/10.1109/tro.2019.2912487},
year = {2019},
publisher = {Institute of Electrical and Electronics Engineers ({IEEE})},
pages = {1--14},
author = {Kevin Doherty and Tixiao Shan and Jinkun Wang and Brendan Englot},
title = {Learning-Aided 3-D Occupancy Mapping With Bayesian Generalized Kernel Inference},
journal = {{IEEE} Transactions on Robotics}
}
Fast, accurate gaussian process occupancy maps via test-data octrees and nested Bayesian fusion (PDF) - describes the GPOctoMap approach included in the LA3DM library.
@INPROCEEDINGS{JWang-ICRA-16,
author={J. Wang and B. Englot},
booktitle={2016 IEEE International Conference on Robotics and Automation (ICRA)},
title={Fast, accurate gaussian process occupancy maps via test-data octrees and nested Bayesian fusion},
year={2016},
pages={1003-1010},
month={May},
}
Bayesian Generalized Kernel Inference for Occupancy Map Prediction (PDF)
@INPROCEEDINGS{KDoherty-ICRA-17,
author={K. Doherty and J. Wang, and B. Englot},
booktitle={2017 IEEE International Conference on Robotics and Automation (ICRA)},
title={Bayesian Generalized Kernel Inference for Occupancy Map Prediction},
year={2017},
month={May},
}
Jinkun Wang, Kevin Doherty, and Erik Pearson, Robust Field Autonomy Lab (RFAL), Stevens Institute of Technology.