A Multi-wavelength Analysis of Active Regions and Sunspots by Comparison of Automatic Detection Algorithms

Verbeeck, C.; Higgins, Paul A. T.; Colak, Tufan; Watson, Fraser; Delouille, Véronique; Mampaey, Benjamin; Qahwaji, Rami

doi:10.1007/s11207-011-9859-6

Cited by 35 publications

(26 citation statements)

References 52 publications

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“…Martens et al (2012) produced software modules that detect, trace, and analyze the emergence and evolution of ARs, magnetic elements and other solar features, such as flares, sigmoids, filaments, coronal dimmings, polarity inversion lines, sunspots and other magnetic structures. Verbeeck et al (2013) described two algorithms: the solar monitor active region tracker (SMART), which automatically extracts, characterizes, and tracks active regions (Higgins et al 2011); and the automated solar activity prediction (ASAP), which represents a set of algorithms that detect sunspots, faculae, and active regions (Colak & Qahwaji 2008). Moreover, Verbeeck et al (2014) described another method called the spatial possibility clustering algorithm (SPoCA-suite).…”

Section: Introductionmentioning

confidence: 99%

Long-period oscillations of active region patterns: least-squares mapping on second-order curves

Dumbadze

Shergelashvili

Kukhianidze

et al. 2017

A&A

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Context. Active regions (ARs) are the main sources of variety in solar dynamic events. Automated detection and identification tools need to be developed for solar features for a deeper understanding of the solar cycle. Of particular interest here are the dynamical properties of the ARs, regardless of their internal structure and sunspot distribution. Aims. We studied the oscillatory dynamics of two ARs: NOAA 11327 and NOAA 11726 using two different methods of pattern recognition. Methods. We developed a novel method of automated AR border detection and compared it to an existing method for the proofof-concept. The first method uses least-squares fitting on the smallest ellipse enclosing the AR, while the second method applies regression on the convex hull. Results. After processing the data, we found that the axes and the inclination angle of the ellipse and the convex hull oscillate in time. These oscillations are interpreted as the second harmonic of the standing long-period kink oscillations (with the node at the apex) of the magnetic flux tube connecting the two main sunspots of the ARs. We also found that the inclination angles oscillate with characteristic periods of 4.9 h in AR 11726 and 4.6 h in AR 11327. In addition, we discovered that the lengths of the pattern axes in the ARs oscillate with similar characteristic periods and these oscillations might be ascribed to standing global flute modes. Conclusions. In both ARs we have estimated the distribution of the phase speed magnitude along the magnetic tubes (along the two main spots) by interpreting the obtained oscillation of the inclination angle as the standing second harmonic kink mode. After comparing the obtained results for fast and slow kink modes, we conclude that both of these modes are good candidates to explain the observed oscillations of the AR inclination angles, as in the high plasma β regime the phase speeds of these modes are comparable and on the order of the Alfvén speed. Based on the properties of the observed oscillations, we detected the appropriate depth of the sunspot patterns, which coincides with estimations made by helioseismic methods. The latter analysis can be used as a basis for developing a magneto-seismological tool for ARs.

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Section: Introductionmentioning

confidence: 99%

Long-period oscillations of active region patterns: least-squares mapping on second-order curves

Dumbadze

Shergelashvili

Kukhianidze

et al. 2017

A&A

View full text Add to dashboard Cite

show abstract

“…Verbeeck et al (2011) provide a detailed comparison of outputs from four automatic detection algorithms that detect sunspots, magnetic, and coronal ARs using six weeks of SOHO-EIT data. At the chromospheric level, network and plage regions are separated using thresholding methods (Steinegger et al 1998;Worden et al 1999), which are possibly combined with region-growing techniques (Benkhalil et al 2006).…”

Section: Introductionmentioning

confidence: 99%

The SPoCA-suite: Software for extraction, characterization, and tracking of active regions and coronal holes on EUV images

Verbeeck

Delouille

Mampaey

et al. 2013

A&A

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121

117

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Context. Precise localization and characterization of active regions (AR) and coronal holes (CH) as observed by extreme ultra violet (EUV) imagers are crucial for a wide range of solar and helio-physics studies. Aims. We introduce a set of segmentation procedures (known as the SPoCA-suite) that allows one to retrieve AR and CH properties on EUV images taken from SOHO-EIT, STEREO-EUVI, PROBA2-SWAP, and SDO-AIA. Methods. We build upon our previous work on the Spatial Possibilistic Clustering Algorithm (SPoCA), that we have improved substantially in several ways. Results. We apply our algorithm on the synoptic EIT archive from 1997 to 2011 and decompose this dataset into regions that can clearly be identified as AR, quiet Sun, and CH. An antiphase between AR and CH filling factor is observed, as expected. The SPoCAsuite is next applied to datasets from EUVI, SWAP, and AIA. The time series pertaining to ARs or CHs are presented. Conclusions. The SPoCA-suite enables the extraction of several long time series of AR and CH properties from the data files of EUV imagers and also allows tracking individual ARs or CHs over time. For AIA images, AR and CH catalogs are available in near-real time from the Heliophysics Events Knowledgebase. The full code, which allows processing any EUV images, is available upon request to the authors.

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“…The prediction performance is assessed using standard forecast-verification measures and compared with the prediction measures of ASAP (Ahmed et al 2013). d ASAP's team at University of Bradford carried out joint research with Royal Observatory of Belgium (ROB), Glasgow University, and Trinity College Dublin (Verbeeck et al 2013). The aim of this work was to compare the performance of established solar imaging systems (ASAP, Spatial Possibilistic Clustering Algorithm (SPoCA), Sunspot Tracking and Recognition Algorithm, and SMART) when processing SDO data.…”

Section: Operational Modeling For Nowcasting and Forecasting Productsmentioning

confidence: 99%

Progress in space weather modeling in an operational environment

Tsagouri

Belehaki

Bergeot

et al. 2013

J. Space Weather Space Clim.

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This paper aims at providing an overview of latest advances in space weather modeling in an operational environment in Europe, including both the introduction of new models and improvements to existing codes and algorithms that address the broad range of space weather's prediction requirements from the Sun to the Earth. For each case, we consider the model's input data, the output parameters, products or services, its operational status, and whether it is supported by validation results, in order to build a solid basis for future developments. This work is the output of the Sub Group 1.3 ''Improvement of operational models'' of the European Cooperation in Science and Technology (COST) Action ES0803 ''Developing Space Weather Products and services in Europe'' and therefore this review focuses on the progress achieved by European research teams involved in the action.

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A Multi-wavelength Analysis of Active Regions and Sunspots by Comparison of Automatic Detection Algorithms

Cited by 35 publications

References 52 publications

Long-period oscillations of active region patterns: least-squares mapping on second-order curves

Long-period oscillations of active region patterns: least-squares mapping on second-order curves

The SPoCA-suite: Software for extraction, characterization, and tracking of active regions and coronal holes on EUV images

Progress in space weather modeling in an operational environment

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