The simulators have been tested on Ubuntu 20.04 using ROS Noetic.
Install the ros-noetic-desktop-full
package by following the instructions
from here and then install the
common dependencies.
# MAVROS and catkin
sudo apt install ros-noetic-depth-image-proc ros-noetic-mavlink ros-noetic-mavros ros-noetic-mavros-msgs python3-catkin-tools
# Other dependencies
sudo apt install libgflags-dev
Create a new ROS workspace.
mkdir -p ~/srl_mav_sim_ws/src
cd ~/srl_mav_sim_ws
catkin init
Clone this repository and all submodules.
cd ~/srl_mav_sim_ws/src
git clone --recurse-submodules git@bitbucket.org:smartroboticslab/srl-mav-sim.git
cd srl-mav-sim
# Or if you didn't add --recurse-submodules when cloning run the following:
git submodule update --init --recursive
Install the PX4 dependencies.
# PX4-Autopilot dependencies
./PX4-Autopilot/Tools/setup/ubuntu.sh --no-nuttx --no-sim-tools
To build PX4, go to the base directory and run
DONT_RUN=1 make px4_sitl ignition
See srl_sim_gazebo_ignition
on how to
build and use the MAV simulator based on Ignition Gazebo. See
srl_mpc_examples
for usage examples of the SRL
linear MPC.
MAVROS allows communicating with the PX4 through ROS. It is the interface used by SRL controllers.