2018
DOI: 10.1016/j.ascom.2018.06.003
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Software tool for automatic detection of solar plages in the Coimbra Observatory spectroheliograms

Abstract: Full-disk spectroheliograms have been taken in Coimbra on a daily basis since 1926 in the Ca II K-line (K1 and K3). Later, in 1989, with the upgrade of the equipment it was possible to start the observations in the H-alpha line. The spectroheliograms of Coimbra constitutes a huge dataset of solar images, which requires an efficient automatic tool to detect and analyse solar activity features. This work presents a mathematical morphology approach applied to the CaII K3 series. The objective is to create a tool … Show more

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Cited by 16 publications
(9 citation statements)
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“…The sunspot numbers are obtained from the SILSO (Sunspot Index and Long-term Solar Observations) database at the Royal Observatory of Belgium. The facular areas were calculated by Barata et al (2018), using the computational tool developed by them. The 27-day-averaged data is shown at Figure 1.…”
Section: Solar Parameters (Sp)mentioning
confidence: 99%
See 1 more Smart Citation
“…The sunspot numbers are obtained from the SILSO (Sunspot Index and Long-term Solar Observations) database at the Royal Observatory of Belgium. The facular areas were calculated by Barata et al (2018), using the computational tool developed by them. The 27-day-averaged data is shown at Figure 1.…”
Section: Solar Parameters (Sp)mentioning
confidence: 99%
“…total facular area (% of solar disk). Calculated byBarata et al (2018).2 FA-N, northern facular area (% of solar disk). 3 FA-S, southern facular area (% of solar disk).…”
mentioning
confidence: 99%
“…Until the present day, more than 50 000 spectroheliograms were acquired by the OGAUC spectroheliograph (Lourenço et al, 2019). Recently, software tools have been developed to automatically detect and analyse chromospheric plages (Barata et al, 2018) and sunspots (Carvalho et al, 2020) on solar images acquired at the OGAUC.…”
Section: Solar Observations At the Ogaucmentioning
confidence: 99%
“…[51] 、Zernike矩 [52] 、灰度共生矩阵 [69] 、复小波变 换 [69] 、数学形态学 [73] 等图像分析和模式识别技术, 被 [74] 和SHARP(Space-Weather HMI Active Region Patches)数据集 [75] , 以及从 [42] 2018 CME到达时间估计 SOHO LASCO C2之前观测到的182个 部分或全晕CME事件 SVM 预测误差约为5.9 h Inceoglu等人 [43] 2018 CME关联事件分析 2010-2018年的DONKI数据 SVM, MLP 基于18个活动区物理参数, 分析CME和SEPs的关联性, TSS约为0.91.…”
Section: 函数unclassified