ROS with Gazebo Classic Simulation
ROS (Robot Operating System) can be used with PX4 and the Gazebo Classic simulator. MAVROS MAVLink 노드를 사용하여 PX4와 통신합니다.
The ROS/Gazebo Classic integration with PX4 follows the pattern in the diagram below (this shows the generic PX4 simulation environment). PX4 communicates with the simulator (e.g. Gazebo Classic) to receive sensor data from the simulated world and send motor and actuator values. GCS 및 Offboard API(예: ROS)와 통신하여 시뮬레이션된 환경에서 텔레메트리 데이터를 전송하고 명령을 수신합니다.
The only slight difference to "normal behaviour" is that ROS initiates the connection on port 14557, while it is more typical for an offboard API to listen for connections on UDP port 14540. 스크립트는 필요한 모든 구성 항목, PX4, ROS "키네틱", 가제보 7 모의 시험 환경, MAVROS를 설치합니다.
Installing ROS and Gazebo Classic
ROS (1) with MAVROS Installation Guide explains how to set up a guide for working with ROS (1), MAVROS, and PX4.
ROS is only supported on Linux (not macOS or Windows).
ROS 시뮬레이션 실행
아래 명령을 사용하여 시뮬레이션을 시작하고, MAVROS를 통해 시뮬레이션에 ROS를 연결할 수 있습니다. 여기서 fcu_url
은 시뮬레이션을 실행하는 컴퓨터의 IP/포트입니다.
sh
roslaunch mavros px4.launch fcu_url:="udp://:14540@192.168.1.36:14557"
localhost에 연결하려면 다음 URL을 사용하십시오.
sh
roslaunch mavros px4.launch fcu_url:="udp://:14540@127.0.0.1:14557"
It can be useful to call roslaunch with the -w NUM_WORKERS
(override number of worker threads) and/or -v
(verbose) in order to get warnings about missing dependencies in your setup. 예:
sh
roslaunch mavros px4.launch fcu_url:="udp://:14540@127.0.0.1:14557"
이 기능을 지원하려면, 가제보를 적당한 ROS 래퍼와 함께 실행해야합니다.
Launching Gazebo Classic with ROS Wrappers
The Gazebo Classic simulation can be modified to integrate sensors publishing directly to ROS topics e.g. the Gazebo Classic ROS laser plugin. To support this feature, Gazebo Classic must be launched with the appropriate ROS wrappers.
ROS로 래핑된 시뮬레이션을 실행하는 데 사용할 수 있는 ROS 시작 스크립트가 있습니다.
- posix_sitl.launch: plain SITL launch
- mavros_posix_sitl.launch: SITL과 MAVROS
ROS에 래핑된 SITL을 실행하려면 ROS 환경을 업데이트한 다음, 평소와 같이 시작하여야 합니다.
(선택 사항): 소스에서 MAVROS 또는 다른 ROS 패키지를 컴파일한 경우에만 catkin 작업 공간을 소싱합니다.
sh
cd <PX4-Autopilot_clone>
DONT_RUN=1 make px4_sitl_default gazebo-classic
source ~/catkin_ws/devel/setup.bash # (optional)
source Tools/simulation/gazebo-classic/setup_gazebo.bash $(pwd) $(pwd)/build/px4_sitl_default
export ROS_PACKAGE_PATH=$ROS_PACKAGE_PATH:$(pwd)
export ROS_PACKAGE_PATH=$ROS_PACKAGE_PATH:$(pwd)/Tools/simulation/gazebo-classic/sitl_gazebo-classic
roslaunch px4 posix_sitl.launch
위에서 언급한 시작 파일 중 하나를 자체 시작 파일에 포함하여, 시뮬레이션에서 ROS 애플리케이션을 실행합니다.
움직임 뒤에서 일어나는 일
This section shows how the roslaunch instructions provided previously actually work (you can follow them to manually launch the simulation and ROS).
You will need three terminals, in all of them the ros environment must be sourced.
아래 명령어를 사용하여 시뮬레이터를 시작합니다.
sh
cd <PX4-Autopilot_clone>
export ROS_PACKAGE_PATH=$ROS_PACKAGE_PATH:$(pwd)
roslaunch px4 px4.launch
콘솔 화면은 다음과 같이 나타납니다:
sh
INFO [px4] instance: 0
______ __ __ ___
| ___ \ \ \ / / / |
| |_/ / \ V / / /| |
| __/ / \ / /_| |
| | / /^\ \ \___ |
\_| \/ \/ |_/
px4 starting.
INFO [px4] startup script: /bin/sh etc/init.d-posix/rcS 0
INFO [init] found model autostart file as SYS_AUTOSTART=10016
INFO [param] selected parameter default file parameters.bson
INFO [param] importing from 'parameters.bson'
INFO [parameters] BSON document size 295 bytes, decoded 295 bytes (INT32:12, FLOAT:3)
INFO [param] selected parameter backup file parameters_backup.bson
INFO [dataman] data manager file './dataman' size is 7866640 bytes
etc/init.d-posix/rcS: 31: [: Illegal number:
INFO [init] PX4_SIM_HOSTNAME: localhost
INFO [simulator_mavlink] Waiting for simulator to accept connection on TCP port 4560
In the second terminal make sure you will be able to start gazebo with the world files defined in PX4-Autopilot. To do this set your environment variables to include the appropriate sitl_gazebo-classic
folders.
sh
cd <PX4-Autopilot_clone>
source Tools/simulation/gazebo-classic/setup_gazebo.bash $(pwd) $(pwd)/build/px4_sitl_default
export ROS_PACKAGE_PATH=$ROS_PACKAGE_PATH:$(pwd)/Tools/simulation/gazebo-classic/sitl_gazebo-classic
Now start Gazebo Classic like you would when working with ROS
sh
roslaunch gazebo_ros empty_world.launch world_name:=$(pwd)/Tools/simulation/gazebo-classic/sitl_gazebo-classic/worlds/empty.world
In the third terminal make sure you will be able to spawn the model with the sdf files defined in PX4-Autopilot. To do this set your environment variables to include the appropriate sitl_gazebo-classic
folders.
sh
cd <PX4-Autopilot_clone>
source Tools/simulation/gazebo-classic/setup_gazebo.bash $(pwd) $(pwd)/build/px4_sitl_default
export ROS_PACKAGE_PATH=$ROS_PACKAGE_PATH:$(pwd)/Tools/simulation/gazebo-classic/sitl_gazebo-classic
Now insert the Iris quadcopter model like you would when working with ROS. Iris가 로드되면 자동으로 px4 앱에 연결됩니다.
sh
rosrun gazebo_ros spawn_model -sdf -file $(pwd)/Tools/simulation/gazebo-classic/sitl_gazebo-classic/models/iris/iris.sdf -model iris -x 0 -y 0 -z 0 -R 0 -P 0 -Y 0