Spacecraft simulation.
This library is still in draft state. Do not use!
Want to get started? This is the simplest and quickest way:
Nothing to download or install! This will automatically start a JupyterLab environment in your browser with Open Space Toolkit libraries and example notebooks ready to use.
Docker must be installed on your system.
The following command will start an iPython shell within a container where the OSTk components are already installed:
docker run -it openspacecollective/open-space-toolkit-simulation-development python3.11 -m IPythonOnce the shell is up and running, playing with it is easy:
# TBC...By default, OSTk fetches the ephemeris from JPL, Earth Orientation Parameters (EOP) and leap second count from IERS.
As a result, when running OSTk for the first time, it may take a minute to fetch all the necessary data.
Tip: Use tab for auto-completion!
The following command will start a JupyterLab server within a container where the OSTk components are already installed:
docker run --publish=8888:8888 openspacecollective/open-space-toolkit-simulation-jupyterOnce the container is running, access http://localhost:8888/lab and create a Python 3 Notebook.
The binary packages are hosted using GitHub Releases:
- Runtime libraries:
open-space-toolkit-simulation-X.Y.Z-1.x86_64-runtime - C++ headers:
open-space-toolkit-simulation-X.Y.Z-1.x86_64-devel - Python bindings:
open-space-toolkit-simulation-X.Y.Z-1.x86_64-python
After downloading the relevant .deb binary packages, install:
apt install open-space-toolkit-simulation-*.debInstall from PyPI:
pip install open-space-toolkit-simulationDocumentation is available here:
Structure
The library exhibits the following detailed and descriptive structure:
└── SatelliteTutorials are available here:
Using Docker for development is recommended, to simplify the installation of the necessary build tools and dependencies. Instructions on how to install Docker are available here.
To start the development environment:
make start-developmentThis will:
- Build the
openspacecollective/open-space-toolkit-simulation-developmentDocker image. - Create a development environment container with local source files and helper scripts mounted.
- Start a
bashshell from the./buildworking directory.
If installing Docker is not an option, you can manually install the development tools (GCC, CMake) and all required dependencies, by following a procedure similar to the one described in the Development Dockerfile.
From the ./build directory:
cmake ..
makeTip: ostk-build simplifies building from within the development environment.
To start a container to build and run the tests:
make testOr to run them manually:
./bin/open-space-toolkit-simulation.testTip: ostk-test simplifies running tests from within the development environment.
| Name | Version | License | Link |
|---|---|---|---|
| Pybind11 | 2.12.0 | BSD-3-Clause | github.com/pybind/pybind11 |
| Core | main | Apache License 2.0 | github.com/open-space-collective/open-space-toolkit-core |
| I/O | main | Apache License 2.0 | github.com/open-space-collective/open-space-toolkit-io |
| Mathematics | main | Apache License 2.0 | github.com/open-space-collective/open-space-toolkit-mathematics |
| Physics | main | Apache License 2.0 | github.com/open-space-collective/open-space-toolkit-physics |
| Astrodynamics | main | Apache License 2.0 | github.com/open-space-collective/open-space-toolkit-astrodynamics |
Contributions are more than welcome!
Please read our contributing guide to learn about our development process, how to propose fixes and improvements, and how to build and test the code.
Apache License 2.0