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The Drag-based Ensemble Model (DBEM) for Coronal Mass Ejection Propagation (CROSBI ID 248955)

Prilog u časopisu | izvorni znanstveni rad | međunarodna recenzija

Dumbović, Mateja ; Čalogović, Jaša ; Vršnak, Bojan ; Temmer, Manuela ; Mays, Leila, M. ; Veronig, Astrid ; Piantschitsch, Isabell The Drag-based Ensemble Model (DBEM) for Coronal Mass Ejection Propagation // The Astrophysical journal, 854 (2018), 2; 180-1-180-11. doi: 10.3847/1538-4357/aaaa66

Podaci o odgovornosti

Dumbović, Mateja ; Čalogović, Jaša ; Vršnak, Bojan ; Temmer, Manuela ; Mays, Leila, M. ; Veronig, Astrid ; Piantschitsch, Isabell

engleski

The Drag-based Ensemble Model (DBEM) for Coronal Mass Ejection Propagation

The drag-based model for heliospheric propagation of coronal mass ejections (CMEs) is a widely used analytical model that can predict CME arrival time and speed at a given heliospheric location. It is based on the assumption that the propagation of CMEs in interplanetary space is solely under the influence of magnetohydrodynamical drag, where CME propagation is determined based on CME initial properties as well as the properties of the ambient solar wind. We present an upgraded version, the drag-based ensemble model (DBEM), that covers ensemble modeling to produce a distribution of possible ICME arrival times and speeds. Multiple runs using uncertainty ranges for the input values can be performed in almost real- time, within a few minutes. This allows us to define the most likely ICME arrival times and speeds, quantify prediction uncertainties, and determine forecast confidence. The performance of the DBEM is evaluated and compared to that of ensemble WSA-ENLIL+Cone model (ENLIL) using the same sample of events. It is found that the mean error is ME = −9.7 hr, mean absolute error MAE = 14.3 hr, and root mean square error RMSE = 16.7 hr, which is somewhat higher than, but comparable to ENLIL errors (ME = −6.1 hr, MAE = 12.8 hr and RMSE = 14.4 hr). Overall, DBEM and ENLIL show a similar performance. Furthermore, we find that in both models fast CMEs are predicted to arrive earlier than observed, most likely owing to the physical limitations of models, but possibly also related to an overestimation of the CME initial speed for fast CMEs.

magnetohydrodynamics (MHD) ; methods: analytical ; methods: statistical ; solarterrestrial relations ; solar wind ; Sun: coronal mass ejections (CMEs)

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Podaci o izdanju

854 (2)

2018.

180-1-180-11

objavljeno

0004-637X

1538-4357

10.3847/1538-4357/aaaa66

Povezanost rada

Fizika

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