Interpreting Stellar Spectra with Unsupervised Domain Adaptation

Teaghan Oâ€™Briain; Yuan-Sen Ting; S Fabbro; Kwang Moo Yi; Kim Venn; Spencer Bialek

doi:10.48550/arXiv.2007.03112

Interpreting Stellar Spectra with Unsupervised Domain Adaptation

Teaghan Oâ€™Briain
, Yuan-Sen Ting
, S Fabbro
, Kwang Moo Yi
, Kim Venn
, Spencer Bialek

Research output: Chapter in Book/Report/Conference proceeding › Conference Paper

Abstract

We discuss how to achieve mapping from large sets of imperfect simulations and observational data with unsupervised domain adaptation. Under the hypothesis that simulated and observed data distributions share a common underlying representation, we show how it is possible to transfer between simulated and observed domains. Driven by an application to interpret stellar spectroscopic sky surveys, we construct the domain transfer pipeline from two adversarial autoencoders on each domains with a disentangling latent space, and a cycle-consistency constraint. We then construct a differentiable pipeline from physical stellar parameters to realistic observed spectra, aided by a supplementary generative surrogate physics emulator network. We further exemplify the potential of the method on the reconstructed spectra quality and to discover new spectral features associated to elemental abundances.

Original language	English
Title of host publication	International Conference for Machine Learning ICML 2020
Editors	Subhashini Venugopalan, Michael Brenner, Scott Linderman, Been Kim
Place of Publication	Virtual
Publisher	Self-published
Pages	Session 2, P#24
DOIs	https://doi.org/10.48550/arXiv.2007.03112
Publication status	Published - 2020
Event	ML Interpretability for Scientific Discovery Workshop: International Conference for Machine Learning ICML 2020 - Online Duration: 1 Jan 2020 → … https://icml.cc/virtual/2020/workshop/5740

Conference

Conference	ML Interpretability for Scientific Discovery Workshop: International Conference for Machine Learning ICML 2020
Period	1/01/20 → …
Other	July 17, 2020
Internet address	https://icml.cc/virtual/2020/workshop/5740

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10.48550/arXiv.2007.03112

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@inproceedings{3645513883f148ac9fee6dce3bbb4dc1,

title = "Interpreting Stellar Spectra with Unsupervised Domain Adaptation",

abstract = "We discuss how to achieve mapping from large sets of imperfect simulations and observational data with unsupervised domain adaptation. Under the hypothesis that simulated and observed data distributions share a common underlying representation, we show how it is possible to transfer between simulated and observed domains. Driven by an application to interpret stellar spectroscopic sky surveys, we construct the domain transfer pipeline from two adversarial autoencoders on each domains with a disentangling latent space, and a cycle-consistency constraint. We then construct a differentiable pipeline from physical stellar parameters to realistic observed spectra, aided by a supplementary generative surrogate physics emulator network. We further exemplify the potential of the method on the reconstructed spectra quality and to discover new spectral features associated to elemental abundances.",

author = "Teaghan O{\^a}€{\texttrademark}Briain and Yuan-Sen Ting and S Fabbro and Yi, \{Kwang Moo\} and Kim Venn and Spencer Bialek",

year = "2020",

doi = "10.48550/arXiv.2007.03112",

language = "English",

pages = "Session 2, P\#24",

editor = "\{Subhashini Venugopalan, Michael Brenner, Scott Linderman, Been Kim\}",

booktitle = "International Conference for Machine Learning ICML 2020",

publisher = "Self-published ",

note = "ML Interpretability for Scientific Discovery Workshop: International Conference for Machine Learning ICML 2020 ; Conference date: 01-01-2020",

url = "https://icml.cc/virtual/2020/workshop/5740",

}

Oâ€™Briain, T, Ting, Y-S, Fabbro, S, Yi, KM, Venn, K & Bialek, S 2020, Interpreting Stellar Spectra with Unsupervised Domain Adaptation. in SVMBSLBK (ed.), International Conference for Machine Learning ICML 2020. Self-published , Virtual, pp. Session 2, P#24, ML Interpretability for Scientific Discovery Workshop: International Conference for Machine Learning ICML 2020, 1/01/20. https://doi.org/10.48550/arXiv.2007.03112

Interpreting Stellar Spectra with Unsupervised Domain Adaptation. / Oâ€™Briain, Teaghan; Ting, Yuan-Sen; Fabbro, S et al.
International Conference for Machine Learning ICML 2020. ed. / Subhashini Venugopalan, Michael Brenner, Scott Linderman, Been Kim. Virtual: Self-published , 2020. p. Session 2, P#24.

Research output: Chapter in Book/Report/Conference proceeding › Conference Paper

TY - GEN

T1 - Interpreting Stellar Spectra with Unsupervised Domain Adaptation

AU - Oâ€™Briain, Teaghan

AU - Ting, Yuan-Sen

AU - Fabbro, S

AU - Yi, Kwang Moo

AU - Venn, Kim

AU - Bialek, Spencer

PY - 2020

Y1 - 2020

N2 - We discuss how to achieve mapping from large sets of imperfect simulations and observational data with unsupervised domain adaptation. Under the hypothesis that simulated and observed data distributions share a common underlying representation, we show how it is possible to transfer between simulated and observed domains. Driven by an application to interpret stellar spectroscopic sky surveys, we construct the domain transfer pipeline from two adversarial autoencoders on each domains with a disentangling latent space, and a cycle-consistency constraint. We then construct a differentiable pipeline from physical stellar parameters to realistic observed spectra, aided by a supplementary generative surrogate physics emulator network. We further exemplify the potential of the method on the reconstructed spectra quality and to discover new spectral features associated to elemental abundances.

AB - We discuss how to achieve mapping from large sets of imperfect simulations and observational data with unsupervised domain adaptation. Under the hypothesis that simulated and observed data distributions share a common underlying representation, we show how it is possible to transfer between simulated and observed domains. Driven by an application to interpret stellar spectroscopic sky surveys, we construct the domain transfer pipeline from two adversarial autoencoders on each domains with a disentangling latent space, and a cycle-consistency constraint. We then construct a differentiable pipeline from physical stellar parameters to realistic observed spectra, aided by a supplementary generative surrogate physics emulator network. We further exemplify the potential of the method on the reconstructed spectra quality and to discover new spectral features associated to elemental abundances.

U2 - 10.48550/arXiv.2007.03112

DO - 10.48550/arXiv.2007.03112

M3 - Conference Paper

SP - Session 2, P#24

BT - International Conference for Machine Learning ICML 2020

A2 - null, Subhashini Venugopalan, Michael Brenner, Scott Linderman, Been Kim

PB - Self-published

CY - Virtual

T2 - ML Interpretability for Scientific Discovery Workshop: International Conference for Machine Learning ICML 2020

Y2 - 1 January 2020

ER -

Interpreting Stellar Spectra with Unsupervised Domain Adaptation

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