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Inpainting Galactic Foreground Intensity and Polarization Maps Using Convolutional Neural Networks

Giuseppe Puglisi,Xiran Bai

The Astrophysical Journal（2020）

Cited 23|Views117

Abstract

The Deep Convolutional Neural Networks (DCNNs) have been a popular tool for image generation and restoration. In this work, we applied DCNNs to the problem of inpainting non-Gaussian astrophysical signal, in the context of Galactic diffuse emissions at the millimetric and submillimetric regimes, specifically Synchrotron and Thermal Dust emissions. Both signals are affected by contamination at small angular scales due to extragalactic radio sources (the former) and dusty star-forming galaxies (the latter). We compare the performance of the standard diffusive inpainting with that of two novel methodologies relying on DCNNs, namely Generative Adversarial Networks and Deep-Prior. We show that the methods based on the DCNNs are able to reproduce the statistical properties of the ground-truth signal more consistently with a higher confidence level. The Python Inpainter for Cosmological and AStrophysical SOurces (PICASSO) is a package encoding a suite of inpainting methods described in this work and has been made publicly available at http://giuspugl.github.io/picasso/.

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Key words

Cosmic microwave background radiation,Extragalactic radio sources,Convolutional neural networks,Interstellar synchrotron emission,Dust continuum emission

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【要点】：本研究利用深度卷积神经网络（DCNNs）对非高斯天体物理信号进行图像修复，在修复银河弥漫发射的毫米和亚毫米波段强度及偏振图方面取得了显著成效，提出了一种新的修复方法，并展示了其优越性。

【方法】：研究采用了基于DCNNs的两种新颖方法——生成对抗网络（GAN）和深度先验（Deep-Prior），并将其与标准扩散修复方法进行了比较。

【实验】：通过Python Inpainter for Cosmological and AStrophysical SOurces (PICASSO)软件包进行实验，该软件包含本文描述的一系列修复方法，并在http://giuspugl.github.io/picasso/上公开。实验结果显示，基于DCNNs的方法能更一致地重现真实信号的统计特性，且具有更高的置信水平。具体数据集名称未在文中提及。

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