CSAF is a framework to minimize the effort required to evaluate, implement, and verify controller design (classical and learning enabled) with respect to the system dynamics. Its key features are:
- Component based controller design
- Native support for python and C language executables
- Compatibility with external hardware and software processes
- Ease of deployment
Controllers, subsystems and plants are implemented as a collection of components. Below is an example of a topology graph of F16 system with GCAS autopilot.
Clone the repo, and install via pip,
pip install csaf-controlsTo install additional dependencies needed for the examples, go to the repo root and run
pip install -r requirements.txtCSAF runs inside a Docker container, and in order to use CSAF, you first need to install docker. CSAF has been tested on Linux (Ubuntu 18.04 and 20.04) and OS X, but should run on any nix-like system that runs docker.
At the repo root, build the docker image
docker build -t csaf .Now you can run an example
docker run -v $PWD:/out csaf python -m csaf_f16 --output-dir /outAlternatively, a jupyter instance can be launched
docker run -p 8888:8888 csaf jupyter notebook --allow-rootCSAF currently contains a number of examples, including the F-16 shown below. These examples are packaged into component libraries. These libraries have application entry-points for demonstration. Note that CSAF has utilities to generate these entrypoints for user created component libraries.
To run a F16 system simulation, run
$ python -m csaf_f16 --time-max 30.0 --system F16Simple
The library CLI options are
$ python -m csaf_f16 --help
F16 Components (CSAF Library)
usage: __main__.py [-h] [-s SYSTEM] [-o OUTPUT_DIR] [-t TIME_MAX] [-d DO_OPEN]
F16 Components (CSAF Library) CSAF F16 Systems Viewer
optional arguments:
-h, --help show this help message and exit
-s SYSTEM, --system SYSTEM
CSAF System to Simulate (examples are ['F16Simple', 'F16AirspeedSimple', 'F16Shield', 'F16MultiAgentCentral', 'F16AcasShield',
'F16AcasIntruderBalloon', 'F16AcasShieldIntruderBalloon', 'F16AcasShieldAcasIntruderBalloon'])
-o OUTPUT_DIR, --output-dir OUTPUT_DIR
Directory to Store Artifacts
-t TIME_MAX, --time-max TIME_MAX
Timespan to Simulate
-d DO_OPEN, --do-open DO_OPEN
Open Simulation Result
CSAF can be used from within a jupyter notebook.
To start CSAF in the notebook mode, go to the notebooks folder and run
jupyter notebookCSAF has functionality to wrap CLI functionality around core CSAF concepts, like systems and scenarios. For
example, after creating a scenario type AcasSimpleScenario, one can create an app by adding
from csaf_f16.goals import AcasSimpleScenario
from csaf.utils.app import ScenarioCsafApp
if __name__ == '__main__':
app = ScenarioCsafApp(AcasSimpleScenario)
app.main()Passing in the scenario.json file
{
"rel_pos_x" : 5000,
"rel_pos_y" : 5000,
"rel_angle" : 0.5,
"rel_speed" : 200
}with
python scenario_app.py -i scenario.json -t 200.0creates traces.json file with simulation results. Also, docker can be used, such as,
docker run -v $PWD:/out csaf python /out/scenario_app.py -i /out/scenario_list.json -o /out/docker_traces.jsonCSAF unit and integration tests use the pytest framework. After installing the mypy plugin, static tests can be added by adding the switch
pytest --mypy -s testsCONTRIBUTING.md contains CSAF development guidelines, please familiarize yourself with the guidelines before opening a
pull request. The best way to contact the dev team is via GitHub issues.
The code in this repository is licensed under two different licenses. The core of CSAF (csaf directory) and the majority of
examples is licensed under BSD license. The f16 examples in the csaf_f16 module is licensed under GPL license.
This material is based upon work supported by the DARPA Assured Autonomy program under the United States Air Force under Contract No. FA8750-19-C-0092. Any opinions, findings and conclusions or recommendations expressed in this material are those of the author(s) and do not necessarily reflect the views of DARPA or the United States Air Force.
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