DroneKit-SITL
SITL Runner for DroneKit.
Overview
The ArduPilot SITL (Software In The Loop) simulator allows you to simulate an ArduPilot based autopilot and communicate with it using MAVLink over the local IP network.
DroneKit-SITL is the fastest and easiest way to run SITL on Windows, Linux, or MAC OSX. It is installed from Python’s pip tool on all platforms, and provides a few simple commands to run pre-built vehicle binaries that are appropriate for the host operating system (downloading them if needed). You can even use it to run binaries you've build locally.
The tool is used extensively by DroneKit projects to test DroneKit apps and example code.
Note: DroneKit-SITL currently only supplies x86 binaries for Mac, Linux and Windows. You can't run it on ARM platforms like RaPi.
Installing
Install using pip (recommended):
pip install dronekit-sitl
Installing from Github master:
pip install git+https://github.com/dronekit/dronekit-sitl
The -UI
or --upgrade --ignore-installed
flags can be added to the commands to update an existing installation to the latest version.
Usage
List of available commands:
dronekit-sitl --list
dronekit-sitl --reset
dronekit-sitl <copter(-version)> [parameters]
dronekit-sitl <plane(-version)> [parameters]
dronekit-sitl <rover(-version)> [parameters]
dronekit-sitl <solo(-version)> [parameters]
dronekit-sitl /path/to/local/binary [parameters]
The --list
commmand is used to display the available build versions (e.g. copter-3.4-dev
).
The -h
parameter can be passed in the command above to list all the parameters to the build
(these are reproduced below).
Option | Description |
---|---|
--h | Help (display help for the build - i.e. these parameters) |
--home HOME | Set home location (lat,lng,alt,yaw) |
--model MODEL | Set simulation model |
--wipe | Wipe eeprom and dataflash |
--rate RATE | Set SITL framerate |
--console | Use console instead of TCP ports |
--instance N | Set instance of SITL (adds 10*instance to all port numbers) |
--speedup SPEEDUP | Set simulation speedup |
--gimbal | Enable simulated MAVLink gimbal |
--autotest-dir | DIR set directory for additional files |
Examples
The following command might be used to start SITL for build of copter-3.3
:
dronekit-sitl copter-3.3 --home=-35.363261,149.165230,584,353
SITL starts and waits for TCP connections on 127.0.0.1:5760
. In a second terminal you can spawn an instance of MAVProxy to
forward messages to UDP ports 127.0.0.1:14550
and 127.0.0.1:14551
(in the same way as sim_vehicle.sh):
mavproxy.py --master tcp:127.0.0.1:5760 --sitl 127.0.0.1:5501 --out 127.0.0.1:14550 --out 127.0.0.1:14551
Ardupilot versions available
You can get the available vehicle builds using the command:
dronekit-sitl --list
You can also view the pre-compiled Ardupilot Copter, Plane and Rover binaries at the links below:
API
SITL exposes a Python API for managing a SITL instance.
from dronekit_sitl import SITL
sitl = SITL(path=apm) # load a binary path (optional)
sitl.download(system, version, verbose=False) # ...or download system (e.g. "copter") and version (e.g. "3.3")
sitl.launch(args, verbose=False, await_ready=False, restart=False)
sitl.block_until_ready(verbose=False) # explicitly wait until receiving commands
code = sitl.complete(verbose=False) # wait until exit
sitl.poll() # returns None or return code
sitl.stop() # terminates SITL
A simpler (but less flexible) interface is also available:
import dronekit_sitl
sitl = dronekit_sitl.start_default() # basic ArduCopter sim
connection_string = sitl.connection_string()
.
.
sitl.stop() # terminates SITL
License
dronekit-sitl is licensed as MIT, Apache-2.0, and GPLv3.
pysim is licensed as GPLv3.
Resources
- Documentation:
- This page!
- Dronekit-Python: Setting up a Simulated Vehicle (SITL)
- Examples:
- Open Issues: /dronekit-sitl/issues
- Forums: https://discuss.dronekit.io