uuv_simulator
: Unmanned Underwater Vehicle (UUV) simulation with Gazebo
Link to the
uuv_simulator
repository here
Link to the documentation page
Chat on Discord
The Unmanned Underwater Vehicle Simulator is a set of packages that include plugins and ROS applications that allow simulation of underwater vehicles in Gazebo.
If you are using this simulator for your publication, please cite:
@inproceedings{Manhaes_2016,
doi = {10.1109/oceans.2016.7761080},
url = {https://doi.org/10.1109%2Foceans.2016.7761080},
year = 2016,
month = {sep},
publisher = {{IEEE}},
author = {Musa Morena Marcusso Manh{\~{a}}es and Sebastian A. Scherer and Martin Voss and Luiz Ricardo Douat and Thomas Rauschenbach},
title = {{UUV} Simulator: A Gazebo-based package for underwater intervention and multi-robot simulation},
booktitle = {{OCEANS} 2016 {MTS}/{IEEE} Monterey}
}
In you are willing to contribute to this package, please check the instructions in CONTRIBUTING.
Features
Gazebo/ROS plugins
- Implementation of Fossen's equations of motion for underwater vehicles
- Thruster modules with implementations for thruster's angular velocity to output thrust force based on
Yoerger el al., 1990
andBessa et al., 2006
- Lift and drag plugin for simulation of fins
- Simulation of 3D current velocity models (constant or based on first-order Gauss-Markov processes)
- Sensor plugins
Controllers
- For AUVs
casadi
-based effort allocation algorithm- Geometric tracking PD controller
- For ROVs
- Thruster manager with computation of the thruster allocation matrix based on the thruster frames available in
/tf
- Model-based feedback linearization controller (
Fossen, 2011
) - Nonlinear PID controller (
Fossen, 2011
) - Non-model-based sliding mode controller (
GarcÃa-Valdovinos el al., 2014
andSalgado-Jiménez et al., 2011
) - PD controller with restoration forces compensation
- 6-DOF PID controller
- Singularity-free tracking controller (
Fjellstad and Fossen, 1994
)
- Thruster manager with computation of the thruster allocation matrix based on the thruster frames available in
- Teleoperation nodes for AUVs and ROVs
Gazebo world models
- Ocean wave shaders for wave animation
- Scenarios from the SWARMs project demonstration locations (e.g. Mangalia, Romania and Trondheim, Norway)
- Subsea BOP panel for manipulation tasks
Vehicle models
- Work-class ROV
rexrov
based on the model presetend inBerg, 2012
eca_a9
lauv_gazebo
desistek_saga
rexrov2
Installation
This packages has been released for the following ROS distributions
kinetic
(See installation instructions for ROS Kinetic)lunar
(See installation instructions for ROS Lunar)melodic
(See installation instructions for ROS Melodic)
Once the ros-<distro>-desktop-full
package for the desired distribution is installed, the uuv_simulator can be installed as
sudo apt install ros-kinetic-uuv-simulator
sudo apt install ros-lunar-uuv-simulator
sudo apt install ros-melodic-uuv-simulator
For instructions on how to install the package from source, check this instructions page
Purpose of the project
This software is a research prototype, originally developed for the EU ECSEL Project 662107 SWARMs.
The software is not ready for production use. However, the license conditions of the applicable Open Source licenses allow you to adapt the software to your needs. Before using it in a safety relevant setting, make sure that the software fulfills your requirements and adjust it according to any applicable safety standards (e.g. ISO 26262).
License
UUV Simulator is open-sourced under the Apache-2.0 license. See the LICENSE file for details.
For a list of other open source components included in UUV Simulator, see the file 3rd-party-licenses.txt.