SeeingGAN: Galactic image deblurring with deep learning for better morphological classification of galaxies

Classification of galactic morphologies is a crucial task in galactic astronomy, and identifying fine structures of galaxies (e.g., spiral arms, bars, and clumps) is an essential ingredient in such a classification task. However, seeing effects can cause images we obtain to appear blurry, making it...

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Bibliographic Details
Published inarXiv.org
Main Authors Gan, Fang Kai, Bekki, Kenji, Hashemizadeh, Abdolhosein
Format Paper
LanguageEnglish
Published Ithaca Cornell University Library, arXiv.org 28.03.2021
Subjects
Astronomy
Celestial bodies
Classification
Clumps
Deep learning
Galactic structure
Galaxies
Hubble Space Telescope
Image classification
Machine learning
Morphology
Physical properties
Reflecting telescopes
Space exploration
Space telescopes
Stars & galaxies
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Summary:Classification of galactic morphologies is a crucial task in galactic astronomy, and identifying fine structures of galaxies (e.g., spiral arms, bars, and clumps) is an essential ingredient in such a classification task. However, seeing effects can cause images we obtain to appear blurry, making it difficult for astronomers to derive galaxies' physical properties and, in particular, distant galaxies. Here, we present a method that converts blurred images obtained by the ground-based Subaru Telescope into quasi Hubble Space Telescope (HST) images via machine learning. Using an existing deep learning method called generative adversarial networks (GANs), we can eliminate seeing effects, effectively resulting in an image similar to an image taken by the HST. Using multiple Subaru telescope image and HST telescope image pairs, we demonstrate that our model can augment fine structures present in the blurred images in aid for better and more precise galactic classification. Using our first of its kind machine learning-based deblurring technique on space images, we can obtain up to 18% improvement in terms of CW-SSIM (Complex Wavelet Structural Similarity Index) score when comparing the Subaru-HST pair versus SeeingGAN-HST pair. With this model, we can generate HST-like images from relatively less capable telescopes, making space exploration more accessible to the broader astronomy community. Furthermore, this model can be used not only in professional morphological classification studies of galaxies but in all citizen science for galaxy classifications.
ISSN:2331-8422