Machine learning models and utilities for exoplanet science.
Chris Shallue: @cshallue
You can jump straight to the AstroNet walkthrough.
Otherwise, click through to the desired directory as outlined below.
- A neural network for identifying exoplanets in light curves. Contains code for:
- Downloading and preprocessing Kepler light curves.
- Building different types of neural network classification models.
- Training and evaluating a new model.
- Using a trained model to generate new predictions.
- A generative model for light curves.
- Utilities for operating on light curves. These include:
- Reading Kepler data from
.fits
files. - Applying a median filter to smooth and normalize a light curve.
- Phase folding, splitting, removing periodic events, etc.
- Reading Kepler data from
- light_curve/fast_ops/ contains optimized C++ light curve operations.
- Shared TensorFlow utilities.
- Utilities derived from third party code.
If you find this code useful, please cite our paper:
Shallue, C. J., & Vanderburg, A. (2018). Identifying Exoplanets with Deep Learning: A Five-planet Resonant Chain around Kepler-80 and an Eighth Planet around Kepler-90. The Astronomical Journal, 155(2), 94.
Full text available at The Astronomical Journal.
This is not an official Google product.