Abstract / Description of output
Inferring accurate posteriors for high-dimensional representations of the brightness of gravitationally-lensed sources is a major challenge, in part due to the difficulties of accurately quantifying the priors. Here, we report the use of a score-based model to encode the prior for the inference of undistorted images of background galaxies. This model is trained on a set of high-resolution images of undistorted galaxies. By adding the likelihood score to the prior score and using a reverse-time stochastic differential equation solver, we obtain samples from the posterior. Our method produces independent posterior samples and models the data almost down to the noise level. We show how the balance between the likelihood and the prior meet our expectations in an experiment with out-of-distribution data.
Original language | English |
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Pages | 1-13 |
Number of pages | 13 |
Publication status | Published - 3 Dec 2022 |
Event | Machine Learning and the Physical Sciences: Workshop at the 36th conference on Neural Information Processing Systems (NeurIPS) - New Orleans, United States Duration: 3 Dec 2022 → 3 Dec 2022 https://ml4physicalsciences.github.io/2022/ |
Workshop
Workshop | Machine Learning and the Physical Sciences |
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Country/Territory | United States |
City | New Orleans |
Period | 3/12/22 → 3/12/22 |
Internet address |