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Paper detail

Predicting solar flares with machine learning: investigating solar cycle dependence

A deep learning network, Long-Short Term Memory (LSTM) network, is used in this work to predict whether the maximum flare class an active region (AR) will produce in the next 24 hours is class $Γ$. We considered $Γ$ are $\ge M$, $\ge C$ and any flare class. The essence of using LSTM, which is a recurrent neural network, is its capability to capture temporal information of the data samples. The input features are time sequences of 20 magnetic parameters from SHARPs - Space-weather HMI Active Region Patches. We analyzed active regions from June 2010 to Dec 2018, using the Geostationary Operational Environmental Satellite (GOES) X-ray flare catalogs and label the data samples with identified ARs in the GOES X-ray flare catalogs. Our results (i) shows consistent skill scores with recently published results using LSTMs and better than the previous work using single time input (eg. DeFN) (ii) The skill scores from the model show essential differences when different years of data was chosen for training and testing.

preprint2020arXivOpen access
Xiantong WangYang ChenGabor TothWard B. ManchesterTamas I. GombosiAlfred O. HeroZhenbang JiaoHu SunMeng JinYang Liu
astro-ph.SR
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Xiantong WangYang ChenGabor TothWard B. ManchesterTamas I. GombosiAlfred O. HeroZhenbang JiaoHu SunMeng JinYang Liu

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