Research on Mount Wilson Magnetic Classification Based on Deep Learning

IF 1.6 4区 物理与天体物理 Q3 ASTRONOMY & ASTROPHYSICS
Yuan He, Yunfei Yang, X. Bai, Song Feng, Bo Liang, W. Dai
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引用次数: 4

Abstract

The Mount Wilson magnetic classification of sunspot groups is thought to be meaningful to forecast flares’ eruptions. In this paper, we adopt a deep learning method, CornerNet-Saccade, to perform the Mount Wilson magnetic classification of sunspot groups. It includes three stages, generating object locations, detecting objects, and merging detections. The key technologies consist of the backbone as Hourglass-54, the attention mechanism, and the key points’ mechanism including the top-left corners and the bottom-right corners of the object by corner pooling layers. These technologies improve the efficiency of detecting the objects without sacrificing accuracy. A dataset is built by a total of 2486 composited images which are composited with the continuum images and the corresponding magnetograms from HMI and MDI. After training the network, the sunspot groups in a composited solar full image are detected and classified in 3 seconds on average. The test results show that this method has a good performance, with the accuracy, precision, recall, and mAP as 0.94, 0.93, 0.94, and 0.90, respectively. Moreover, the flare productivities of different types of sunspot groups from 2011 to 2020 are calculated. As I tot   ≥  1, the flare productivities of α , β , β γ , β δ , and β γ δ sunspot groups are 0.14, 0.28, 0.61, 0.71, and 0.87, respectively. As I tot   ≥  10, the flare productivities are 0.02, 0.07, 0.27, 0.45, and 0.65, respectively. It means that the β γ , β δ , and β γ δ types are indeed very closely related to the eruption of solar flares, especially the β γ δ type. Based on the reliability of this method, the sunspot groups of the HMI solar full images from 2011 to 2020 are detected and classified, and the detailed data are shared on the website (https://61.166.157.71/MWMCSG.html).
基于深度学习的Mount Wilson磁分类研究
威尔逊山对太阳黑子群的磁性分类被认为对预测耀斑的爆发有意义。在本文中,我们采用了一种深度学习方法CornerNet Sacade来对太阳黑子群进行威尔逊山磁分类。它包括三个阶段,生成对象位置、检测对象和合并检测。关键技术包括Hourglass-54的主干、注意力机制和关键点机制,包括通过角池层的对象的左上角和右下角。这些技术在不牺牲精度的情况下提高了检测物体的效率。数据集由总共2486个合成图像构建,这些合成图像与HMI和MDI的连续图像和相应的磁图合成。在训练网络后,合成的太阳完整图像中的太阳黑子群平均在3秒内被检测和分类。测试结果表明,该方法具有良好的性能,准确度、精密度、召回率和mAP分别为0.94、0.93、0.94和0.90。此外,还计算了2011年至2020年不同类型太阳黑子群的耀斑生产率。正如我所想  ≥  1,α、β、βγ、βδ和βγδ太阳黑子群的耀斑生产率分别为0.14、0.28、0.61、0.71和0.87。正如我所想  ≥  10,火炬生产率分别为0.02、0.07、0.27、0.45和0.65。这意味着βγ、βδ和βγδ类型确实与太阳耀斑的爆发密切相关,尤其是βγδ型。基于该方法的可靠性,对2011年至2020年HMI太阳全图像的太阳黑子群进行了检测和分类,并在网站上共享了详细数据(https://61.166.157.71/MWMCSG.html)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Advances in Astronomy
Advances in Astronomy ASTRONOMY & ASTROPHYSICS-
CiteScore
2.70
自引率
7.10%
发文量
10
审稿时长
22 weeks
期刊介绍: Advances in Astronomy publishes articles in all areas of astronomy, astrophysics, and cosmology. The journal accepts both observational and theoretical investigations into celestial objects and the wider universe, as well as the reports of new methods and instrumentation for their study.
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