Photometric Redshifts from SDSS Images with an Interpretable Deep Capsule Network

Dey, Biprateep and Andrews, Brett and Newman, Jeffrey (2021) Photometric Redshifts from SDSS Images with an Interpretable Deep Capsule Network. [Dataset] (Submitted)

	Other (Galaxy properties and photo-z catalog for development data set) Data Available under License Creative Commons Attribution Non-commercial. Download (64MB)
	Plain Text (Network performance metrics) Data Available under License Creative Commons Attribution Non-commercial. Download (517B)
	Other (Photo-z predictions for the test set) Available under License Creative Commons Attribution Non-commercial. Download (1MB)
	Other (Galaxy properties and photo-z catalog for test data set) Available under License Creative Commons Attribution Non-commercial. Download (64MB)
	Other (Galaxy properties and photo-z catalog for training data set.) Available under License Creative Commons Attribution Non-commercial. Download (512MB)
	CSV (Galaxy properties and photo-z catalog for development data set) Available under License Creative Commons Attribution Non-commercial. Download (98MB)
	CSV (Galaxy properties and photo-z catalog for test data set) Available under License Creative Commons Attribution Non-commercial. Download (98MB)
	CSV (Galaxy properties and photo-z catalog for training data set) Available under License Creative Commons Attribution Non-commercial. Download (785MB)

Abstract

Studies of cosmology, galaxy evolution, and astronomical transients with current and next-generation wide-field imaging surveys (like LSST) are all critically dependent on estimates of galaxy redshifts from imaging data alone. Capsule networks are a new type of neural network architecture that is better suited for identifying morphological features of the input images than traditional convolutional neural networks. We use a deep capsule network trained on the ugriz images, spectroscopic redshifts, and Galaxy Zoo spiral/elliptical classifications of ~400,000 SDSS galaxies to do photometric redshift estimation. We achieve a photometric redshift prediction accuracy and a fraction of catastrophic outliers that are comparable to or better than current state-of-the-art methods while requiring less data and fewer trainable parameters. Furthermore, the decision-making of our capsule network is much more easily interpretable as capsules act as a low-dimensional encoding of the image. When the capsules are projected on a 2-dimensional manifold, they form a single redshift sequence with the fraction of spirals in a region exhibiting a gradient roughly perpendicular to the redshift sequence. We perturb encodings of real galaxy images in this low-dimensional space to create synthetic galaxy images that demonstrate the image properties (e.g., size, orientation, and surface brightness) encoded by each dimension. We also show how strongly galaxy properties (e.g., magnitudes, colours, and stellar mass) are correlated with each capsule dimension. Finally, we publicly release the code for our capsule network, our estimated redshifts, and additional catalogues.

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Details

Item Type:	Dataset
Status:	Submitted
Creators/Authors:	Creators Email Pitt Username ORCID Dey, Biprateep biprateep@pitt.edu bid13 0000-0002-5665-7912 Andrews, Brett andrewsb@pitt.edu andrewsb 0000-0001-8085-5890 Newman, Jeffrey janewman@pitt.edu janewman 0000-0001-8684-2222
Date:	7 December 2021
Date Type:	Submission
Publisher:	MNRAS
DOI or Unique Handle:	10.18117/mchy-tv79
Schools and Programs:	Dietrich School of Arts and Sciences > Astronomy
Funders:	National Science Foundation
Media of Output:	Paper
Type of Data:	Mixed
Copyright Holders:	Biprateep Dey, Brett Andrews, Jeffrey Newman
Date Deposited:	10 Dec 2021 00:24
Last Modified:	14 Dec 2021 14:39
URI:	http://d-scholarship.pitt.edu/id/eprint/42023

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