Litcius/Paper detail

SCSS-Net: solar corona structures segmentation by deep learning

Š. Mackovjak, Martin Harman, Viera Krešňáková, Peter Butka

2021Monthly Notices of the Royal Astronomical Society15 citationsDOIOpen Access PDF

Abstract

ABSTRACT Structures in the solar corona are the main drivers of space weather processes that might directly or indirectly affect the Earth. Thanks to the most recent space-based solar observatories, with capabilities to acquire high-resolution images continuously, the structures in the solar corona can be monitored over the years with a time resolution of minutes. For this purpose, we have developed a method for automatic segmentation of solar corona structures observed in the EUV spectrum that is based on a deep-learning approach utilizing convolutional neural networks. The available input data sets have been examined together with our own data set based on the manual annotation of the target structures. Indeed, the input data set is the main limitation of the developed model’s performance. Our SCSS-Net model provides results for coronal holes and active regions that could be compared with other generally used methods for automatic segmentation. Even more, it provides a universal procedure to identify structures in the solar corona with the help of the transfer learning technique. The outputs of the model can be then used for further statistical studies of connections between solar activity and the influence of space weather on Earth.

Topics & Concepts

Corona (planetary geology)PhysicsSpace weatherConvolutional neural networkCoronal holeSegmentationSet (abstract data type)Artificial neural networkRemote sensingArtificial intelligenceCoronal mass ejectionComputer scienceSolar windAstronomyMagnetic fieldVenusProgramming languageAstrobiologyQuantum mechanicsGeologySolar and Space Plasma DynamicsSolar Radiation and PhotovoltaicsGamma-ray bursts and supernovae