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ASSA (1)

Automatic Solar Synoptic Analyzer

Model Description

The Automatic Solar Synoptic Analyzer (ASSA) is a fully automated software system of realtime monitoring and identification of key solar phenomena such as sunspot groups, coronal holes and filaments, those are three major solar sources causing the space weather.

ASSA uses highresolution SDO HMI continuum and magnetogram data as inputs and identifying sunspot groups and providing McIntosh classification and Mt. Wilson magnetic classification of each active region. The pipeline of procedures for ASSA system include various kinds of image processing techniques including algorithms for intensity thresholding, morphological open/close, region growing and grouping based on the separation of each sunspot. Afterwards, each identified sunspot group is further processed to determine its McIntosh and Mt. Wilson magnetic class through estimation of quantitative parameters such as existence and maturity of penumbra, longitudinal coverage extent, compactness of sunspots aggregation, complexity of magnetic neutral lines, etc. The basic theory of classification scheme is based on SIDC user guide on sunspot group classification.

The flare probabilities for C/M/X class are provided. The C/M/X flare probabilities are based on the result of statistical analysis of the ASSA sunspot catalog and GOES Xray flare data. In generating the ASSA sunspot catalog, the SOHO MDI Continuum and Magnetogram images were collected for the period about 15 years from September 1996 to January 2011, which is covering a complete solar cycle (the cycle 23). Then, ASSA algorithm has been applied to the whole data set to obtain 15year sunspot catalog based on ASSA. The result of McIntosh classification for all sunspot groups are associated with Xray events catalog to yield C/M/X flare probability for each McIntosh class.

When identifying coronal holes and filament channels, images of SDO AIA 193 and global Halpha network are used for morphological identification. Especially, SDO HMI magnetograms are also used for quantitative verification of coronal hole based on polarity distribution. The output results of ASSA are routinely checked and validated against NOAA's daily SRS (Solar Region Summary) and UCOHO

Model Figure(s) :

Model Inputs Description

SDO HMI continuum 
 
SDO HMI magnetogram  

SDO AIA 193  

GONG Halpha (BBSO)  

GONG Halpha (Udaipur) 

Solar Region Summary from SWPC 

UCOHO (URSIgram code for coronal hole information) from SWPC

Model Outputs Description

Image and text files of sunspot identification and classification result according to McIntosh and Mt. Wilson classification scheme along with flare probability according to McIntosh sunspot classification results

Image and text files of coronal hole identification results

Image files of filament channel identification results

Model Caveats

This software was developed at the Korean Space Weather Center of the Radio Research Agency by SELab, Inc. This software is a freeware. It is an experimental system and RRA assumes no responsibility whatsover for its use by other parties, and make no guarantees.

Change Log

Model Acknowledgement/Publication Policy (if any)

Model Domains:

Solar

Space Weather Impacts:

Phenomena :

Simulation Type(s):

Empirical

Temporal Dependence Possible? (whether the code results depend on physical time?)

false

Model is available at?

CCMC

Source code of the model is publicly available?

false

CCMC Model Status (e.g. onboarding, use in production, retired, only hosting output, only source is available):

production

Code Language:

IDL

Regions (this is automatically mapped based on model domain):

Sun

Contacts :

Jaehun.Kim, ModelContact
Sandro.Taktakishvili, ModelHostContact
M.Leila.Mays, ModelHostContact
Peter.MacNeice, ModelHostContact

Acknowledgement/Institution :

Relevant Links :

Model Website at KSWC: https://spaceweather.rra.go.kr/assa
ASSA GUI User Manual: https://spaceweather.rra.go.kr/images/assa/ASSA_GUI_MANUAL_112.pdf

Publications :

Bloomfield, D. S., Higgins, P. A., McAteer, R. T. J., Gallagher, P. T., ApJL, 747, L41, 2012

Colak, T., and Qahwaji, R., Solar Physics, 248, 277, 2007

Krista, L. D. and Gallagher, P. T., Solar Physics, 256, 87, 2009

Shih, F. Y. and Kowalsky, A. J., Solar Physics, 218, 99, 2003

Model Access Information :

Access URL: https://iswa.gsfc.nasa.gov/IswaSystemWebApp/index.jsp?i_1=565&l_1=26&t_1=396&w_1=500&h_1=510&s_1=0_0_10_3&i_2=567&l_2=551&t_2=914&w_2=500&h_2=510&s_2=0_0_10_3&i_3=569&l_3=22&t_3=916&w_3=500&h_3=510&s_3=0_0_10_3&i_4=566&l_4=540&t_4=391&w_4=500&h_4=510&s_4=0_0_10_3
Access URL Name: Continuous/RT Run (ISWA layout)
Repository ID: spase://CCMC/Repository/NASA/GSFC/CCMC
Availability: online
AccessRights: OPEN
Format: HTML
Encoding: None

Access URL: https://iswa.gsfc.nasa.gov/iswa_data_tree/model/solar/assa/
Access URL Name: Continuous/RT Run (ISWA data tree)
Repository ID: spase://CCMC/Repository/NASA/GSFC/CCMC
Availability: online
AccessRights: OPEN
Format: HTML
Encoding: None

Access URL: https://iswa.gsfc.nasa.gov/IswaSystemWebApp/index.jsp?i_1=606&l_1=95&t_1=384&w_1=1721&h_1=865&s_1=0
Access URL Name: Continuous/RT Run (Flare Scoreboard)
Repository ID: spase://CCMC/Repository/NASA/GSFC/CCMC
Availability: online
AccessRights: OPEN
Format: HTML
Encoding: None

Linked to Other Spase Resource(s) (example: another SimulationModel) :

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