Galaxy classification: Deep learning on the OTELO and COSMOS databases

José A. De DIego; Jakub Nadolny; Ángel Bongiovanni; Jordi Cepa; Mirjana Pović; Ana María Pérez García; Carmen P. Padilla Torres; Maritza A. Lara-López; Miguel Cerviño; Ricardo Pérez Martínez; Emilio J. Alfaro; Héctor O. Castañeda; Miriam Fernández-Lorenzo; Jesús Gallego; J. Jesús González; J. Ignacio González-Serrano; Irene Pintos-Castro; Miguel Sánchez-Portal; Bernabe&acute Cedrés; Mauro González-Otero; D. Heath Jones; Joss Bland-Hawthorn

doi:10.1051/0004-6361/202037697

Galaxy classification: Deep learning on the OTELO and COSMOS databases

José A. De DIego, Jakub Nadolny, Ángel Bongiovanni, Jordi Cepa, Mirjana Pović, Ana María Pérez García, Carmen P. Padilla Torres, Maritza A. Lara-López, Miguel Cerviño, Ricardo Pérez Martínez, Emilio J. Alfaro, Héctor O. Castañeda, Miriam Fernández-Lorenzo, Jesús Gallego, J. Jesús González, J. Ignacio González-Serrano, Irene Pintos-Castro, Miguel Sánchez-Portal, Bernabe&acute Cedrés, Mauro González-OteroD. Heath Jones, Joss Bland-Hawthorn

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Research output: Contribution to journal › Journal article › Research › peer-review

15 Citations (Scopus)

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Abstract

Context. The accurate classification of hundreds of thousands of galaxies observed in modern deep surveys is imperative if we want to understand the universe and its evolution. Aims. Here, we report the use of machine learning techniques to classify early- and late-type galaxies in the OTELO and COSMOS databases using optical and infrared photometry and available shape parameters: either the Sérsic index or the concentration index. Methods. We used three classification methods for the OTELO database: (1) u? -? r color separation, (2) linear discriminant analysis using u? -? r and a shape parameter classification, and (3) a deep neural network using the r magnitude, several colors, and a shape parameter. We analyzed the performance of each method by sample bootstrapping and tested the performance of our neural network architecture using COSMOS data. Results. The accuracy achieved by the deep neural network is greater than that of the other classification methods, and it can also operate with missing data. Our neural network architecture is able to classify both OTELO and COSMOS datasets regardless of small differences in the photometric bands used in each catalog. Conclusions. In this study we show that the use of deep neural networks is a robust method to mine the cataloged data.

Original language	English
Article number	A134
Journal	Astronomy and Astrophysics
Volume	638
ISSN	0004-6361
DOIs	https://doi.org/10.1051/0004-6361/202037697
Publication status	Published - 2020

Bibliographical note

Publisher Copyright:
© ESO 2020.

Keywords

Galaxies: general
Methods: statistical

Access to Document

10.1051/0004-6361/202037697

Galaxy classification: deep learning on the OTELO and COSMOS databasesAccepted author manuscript, 1.93 MB

Cite this

De DIego, J. A., Nadolny, J., Bongiovanni, Á., Cepa, J., Pović, M., Pérez García, A. M., Padilla Torres, C. P., Lara-López, M. A., Cerviño, M., Martínez, R. P., Alfaro, E. J., Castañeda, H. O., Fernández-Lorenzo, M., Gallego, J., González, J. J., González-Serrano, J. I., Pintos-Castro, I., Sánchez-Portal, M., Cedrés, B., ... Bland-Hawthorn, J. (2020). Galaxy classification: Deep learning on the OTELO and COSMOS databases. Astronomy and Astrophysics, 638, [A134]. https://doi.org/10.1051/0004-6361/202037697

Galaxy classification : Deep learning on the OTELO and COSMOS databases. / De DIego, José A.; Nadolny, Jakub; Bongiovanni, Ángel; Cepa, Jordi; Pović, Mirjana; Pérez García, Ana María; Padilla Torres, Carmen P.; Lara-López, Maritza A.; Cerviño, Miguel; Martínez, Ricardo Pérez; Alfaro, Emilio J.; Castañeda, Héctor O.; Fernández-Lorenzo, Miriam; Gallego, Jesús; González, J. Jesús; González-Serrano, J. Ignacio; Pintos-Castro, Irene; Sánchez-Portal, Miguel; Cedrés, Bernabe´ González-Otero, Mauro; Heath Jones, D.; Bland-Hawthorn, Joss.

In: Astronomy and Astrophysics, Vol. 638, A134, 2020.

Research output: Contribution to journal › Journal article › Research › peer-review

De DIego, JA, Nadolny, J, Bongiovanni, Á, Cepa, J, Pović, M, Pérez García, AM, Padilla Torres, CP, Lara-López, MA, Cerviño, M, Martínez, RP, Alfaro, EJ, Castañeda, HO, Fernández-Lorenzo, M, Gallego, J, González, JJ, González-Serrano, JI, Pintos-Castro, I, Sánchez-Portal, M, Cedrés, B, González-Otero, M, Heath Jones, D & Bland-Hawthorn, J 2020, 'Galaxy classification: Deep learning on the OTELO and COSMOS databases', Astronomy and Astrophysics, vol. 638, A134. https://doi.org/10.1051/0004-6361/202037697

De DIego, José A. ; Nadolny, Jakub ; Bongiovanni, Ángel ; Cepa, Jordi ; Pović, Mirjana ; Pérez García, Ana María ; Padilla Torres, Carmen P. ; Lara-López, Maritza A. ; Cerviño, Miguel ; Martínez, Ricardo Pérez ; Alfaro, Emilio J. ; Castañeda, Héctor O. ; Fernández-Lorenzo, Miriam ; Gallego, Jesús ; González, J. Jesús ; González-Serrano, J. Ignacio ; Pintos-Castro, Irene ; Sánchez-Portal, Miguel ; Cedrés, Bernabe&acute ; González-Otero, Mauro ; Heath Jones, D. ; Bland-Hawthorn, Joss. / Galaxy classification : Deep learning on the OTELO and COSMOS databases. In: Astronomy and Astrophysics. 2020 ; Vol. 638.

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abstract = "Context. The accurate classification of hundreds of thousands of galaxies observed in modern deep surveys is imperative if we want to understand the universe and its evolution. Aims. Here, we report the use of machine learning techniques to classify early- and late-type galaxies in the OTELO and COSMOS databases using optical and infrared photometry and available shape parameters: either the S{\'e}rsic index or the concentration index. Methods. We used three classification methods for the OTELO database: (1) u? -? r color separation, (2) linear discriminant analysis using u? -? r and a shape parameter classification, and (3) a deep neural network using the r magnitude, several colors, and a shape parameter. We analyzed the performance of each method by sample bootstrapping and tested the performance of our neural network architecture using COSMOS data. Results. The accuracy achieved by the deep neural network is greater than that of the other classification methods, and it can also operate with missing data. Our neural network architecture is able to classify both OTELO and COSMOS datasets regardless of small differences in the photometric bands used in each catalog. Conclusions. In this study we show that the use of deep neural networks is a robust method to mine the cataloged data.",

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note = "Publisher Copyright: {\textcopyright} ESO 2020.",

year = "2020",

doi = "10.1051/0004-6361/202037697",

language = "English",

volume = "638",

journal = "Astronomy & Astrophysics",

issn = "0004-6361",

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T1 - Galaxy classification

T2 - Deep learning on the OTELO and COSMOS databases

AU - De DIego, José A.

AU - Nadolny, Jakub

AU - Bongiovanni, Ángel

AU - Cepa, Jordi

AU - Pović, Mirjana

AU - Pérez García, Ana María

AU - Padilla Torres, Carmen P.

AU - Lara-López, Maritza A.

AU - Cerviño, Miguel

AU - Martínez, Ricardo Pérez

AU - Alfaro, Emilio J.

AU - Castañeda, Héctor O.

AU - Fernández-Lorenzo, Miriam

AU - Gallego, Jesús

AU - González, J. Jesús

AU - González-Serrano, J. Ignacio

AU - Pintos-Castro, Irene

AU - Sánchez-Portal, Miguel

AU - Cedrés, Bernabe&acute

AU - González-Otero, Mauro

AU - Heath Jones, D.

AU - Bland-Hawthorn, Joss

PY - 2020

Y1 - 2020

N2 - Context. The accurate classification of hundreds of thousands of galaxies observed in modern deep surveys is imperative if we want to understand the universe and its evolution. Aims. Here, we report the use of machine learning techniques to classify early- and late-type galaxies in the OTELO and COSMOS databases using optical and infrared photometry and available shape parameters: either the Sérsic index or the concentration index. Methods. We used three classification methods for the OTELO database: (1) u? -? r color separation, (2) linear discriminant analysis using u? -? r and a shape parameter classification, and (3) a deep neural network using the r magnitude, several colors, and a shape parameter. We analyzed the performance of each method by sample bootstrapping and tested the performance of our neural network architecture using COSMOS data. Results. The accuracy achieved by the deep neural network is greater than that of the other classification methods, and it can also operate with missing data. Our neural network architecture is able to classify both OTELO and COSMOS datasets regardless of small differences in the photometric bands used in each catalog. Conclusions. In this study we show that the use of deep neural networks is a robust method to mine the cataloged data.

AB - Context. The accurate classification of hundreds of thousands of galaxies observed in modern deep surveys is imperative if we want to understand the universe and its evolution. Aims. Here, we report the use of machine learning techniques to classify early- and late-type galaxies in the OTELO and COSMOS databases using optical and infrared photometry and available shape parameters: either the Sérsic index or the concentration index. Methods. We used three classification methods for the OTELO database: (1) u? -? r color separation, (2) linear discriminant analysis using u? -? r and a shape parameter classification, and (3) a deep neural network using the r magnitude, several colors, and a shape parameter. We analyzed the performance of each method by sample bootstrapping and tested the performance of our neural network architecture using COSMOS data. Results. The accuracy achieved by the deep neural network is greater than that of the other classification methods, and it can also operate with missing data. Our neural network architecture is able to classify both OTELO and COSMOS datasets regardless of small differences in the photometric bands used in each catalog. Conclusions. In this study we show that the use of deep neural networks is a robust method to mine the cataloged data.

KW - Galaxies: general

KW - Methods: statistical

U2 - 10.1051/0004-6361/202037697

DO - 10.1051/0004-6361/202037697

M3 - Journal article

AN - SCOPUS:85088259724

VL - 638

JO - Astronomy & Astrophysics

JF - Astronomy & Astrophysics

SN - 0004-6361

M1 - A134

ER -