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Deep learning application for stellar parameters determination: I-constraining the hyperparameters

Deep learning application for stellar parameters determination: I-constraining the hyperparameters
Deep learning application for stellar parameters determination: I-constraining the hyperparameters

Machine learning is an efficient method for analysing and interpreting the increasing amount of astronomical data that are available. In this study, we show a pedagogical approach that should benefit anyone willing to experiment with deep learning techniques in the context of stellar parameter determination. Using the convolutional neural network architecture, we give a step-by-step overview of how to select the optimal parameters for deriving the most accurate values for the stellar parameters of stars: T eff {T}_{{\rm{eff}}}, log g \log g, [M/H], and v e sin i {v}_{e}\sin i. Synthetic spectra with random noise were used to constrain this method and to mimic the observations. We found that each stellar parameter requires a different combination of network hyperparameters and the maximum accuracy reached depends on this combination as well as the signal-to-noise ratio of the observations, and the architecture of the network. We also show that this technique can be applied to other spectral-types in different wavelength ranges after the technique has been optimized.

methods: data analysis, methods: deep learning, methods: statistical, stars: fundamental parameters, techniques: spectroscopic
38-57
Gebran, Marwan
aa89a75c-89de-4979-ae22-eedbad0bb0e3
Connick, Kathleen
c5d94415-6607-426b-a720-4982a6f880d9
Farhat, Hikmat
4b7583f4-d03c-425e-a65a-82c0e157e7e6
Paletou, Frédéric
dcd3489a-2cce-445d-ac3a-d78d1469ef78
Bentley, Ian
36801878-bf56-4ea0-902a-b7e68d0d0970
Gebran, Marwan
aa89a75c-89de-4979-ae22-eedbad0bb0e3
Connick, Kathleen
c5d94415-6607-426b-a720-4982a6f880d9
Farhat, Hikmat
4b7583f4-d03c-425e-a65a-82c0e157e7e6
Paletou, Frédéric
dcd3489a-2cce-445d-ac3a-d78d1469ef78
Bentley, Ian
36801878-bf56-4ea0-902a-b7e68d0d0970

Gebran, Marwan, Connick, Kathleen, Farhat, Hikmat, Paletou, Frédéric and Bentley, Ian (2022) Deep learning application for stellar parameters determination: I-constraining the hyperparameters. Open Astronomy, 31 (1), 38-57. (doi:10.1515/astro-2022-0007).

Record type: Article

Abstract

Machine learning is an efficient method for analysing and interpreting the increasing amount of astronomical data that are available. In this study, we show a pedagogical approach that should benefit anyone willing to experiment with deep learning techniques in the context of stellar parameter determination. Using the convolutional neural network architecture, we give a step-by-step overview of how to select the optimal parameters for deriving the most accurate values for the stellar parameters of stars: T eff {T}_{{\rm{eff}}}, log g \log g, [M/H], and v e sin i {v}_{e}\sin i. Synthetic spectra with random noise were used to constrain this method and to mimic the observations. We found that each stellar parameter requires a different combination of network hyperparameters and the maximum accuracy reached depends on this combination as well as the signal-to-noise ratio of the observations, and the architecture of the network. We also show that this technique can be applied to other spectral-types in different wavelength ranges after the technique has been optimized.

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More information

Published date: 17 February 2022
Additional Information: Publisher Copyright: © 2022 Marwan Gebran et al., published by De Gruyter.
Keywords: methods: data analysis, methods: deep learning, methods: statistical, stars: fundamental parameters, techniques: spectroscopic

Identifiers

Local EPrints ID: 492312
URI: http://eprints.soton.ac.uk/id/eprint/492312
DOI: doi:10.1515/astro-2022-0007
PURE UUID: a400f1e8-46ee-4d08-af48-5da72b5fced0
ORCID for Hikmat Farhat: ORCID iD orcid.org/0000-0002-5043-227X

Catalogue record

Date deposited: 23 Jul 2024 17:13
Last modified: 24 Jul 2024 02:06

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Contributors

Author: Marwan Gebran
Author: Kathleen Connick
Author: Hikmat Farhat ORCID iD
Author: Frédéric Paletou
Author: Ian Bentley

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