| The Challenge of Machine Learning in Space Weather: Nowcasting and Forecasting |
26 |
| Measures of Model Performance Based On the Log Accuracy Ratio |
25 |
| The 6 September 2017 X-Class Solar Flares and Their Impacts on the Ionosphere, GNSS, and HF Radio Wave Propagation |
22 |
| Midlatitude Plasma Bubbles Over China and Adjacent Areas During a Magnetic Storm on 8 September 2017 |
18 |
| Forecasting the Structure and Orientation of Earthbound Coronal Mass Ejections |
16 |
| A 21st Century View of the March 1989 Magnetic Storm |
15 |
| Intensity and Impact of the New York Railroad Superstorm of May 1921 |
14 |
| Ionospheric Response to the X9.3 Flare on 6 September 2017 and Its Implication tor Navigation Services Over Europe |
14 |
| Model Evaluation Guidelines for Geomagnetic Index Predictions |
14 |
| Modeling the Evolution and Propagation of 10 September 2017 CMEs and SEPs Arriving at Mars Constrained by Remote Sensing and In Situ Measurement |
13 |
| Merging of Storm Time Midlatitude Traveling Ionospheric Disturbances and Equatorial Plasama Bubbles |
13 |
| Long-Lasting Geomagnetically Induced Currents and Harmonic Distortion Observed in New Zealand During the 7-8 September 2017 Disturbed Period |
11 |
| Forecasting the Arrival Time of Coronal Mass Ejections: Analysis of the CCMC CME Scoreboard |
11 |
| Ionospheric Response Observed by EISCAT During the 6-8 September 2017 Space Weather Event: Overview |
11 |
| Analysis of the Solar Flare Effects of 6 September 2017 in me the Ionosphere and in the Earth's Magnetic Field Using Spherical Elementary Current Systems |
11 |
| The Great Storm of May 1921: An Exemplar of a Dangerous Space Weather Event |
11 |
| Spectral Analysis of the September 2017 Solar Energetic Particle Events |
11 |
| Longitudinal and Seasonal Variability of Equatorial Ionospheric Irregularities and Electrodynamics |
10 |
| The GIC and Geomagnetic Response Over Fennoscandia to the 7-8 September 2017 Geomagnetic Storm |
10 |
| The Ground-Level Enhancement Event of September 2017 and Other Large Solar Energetic Particle |
10 |
| On the intencity of the Magnetic Superstorm of September 1909 |
10 |
| Regional 3-D Modeling of Ground Electromagnetic Field Due To Realistic Geomagnetic Disturbances |
9 |
| A Preliminary Risk Assessment of Geomagnetically Induced Currents over the Italian Territory |
9 |
| Geomagnetically Induced Currents Caused by Interplanetary Shocks With Different Impact Angles and Speeds |
9 |
| September 2017's Geoeffective Space Weather and Impacts to Caribbean Radio Communications During Hurricane Response |
9 |
| Assessing the Quality of Models of the Ambient Solar Wind |
9 |
| On Solutions of the PFSS Model With GONG Synoptic Maps for 2006-2018 |
9 |
| Forward Modeling of Coronal Mass Ejection Flux Ropes in the Inner Heliosphere with 3DCORE |
9 |
| Calculation of Voltages in Electric Power Transmission Lines During Historic Geomagnetic Storms: An Investigation Using Realistic Earth Impedances |
9 |
| Validating GIC Models With Measurements in Austria: Evaluation of Accuracy and Sensitivity to Input Parameters |
8 |
| Modeling Geoelectric Fields in Ireland and the UK for Space Weather Applications |
8 |
| Solar Ultraviolet Irradiance Observations of the Solar Flares During the intense September 2017 Storm Period |
8 |
| A 30-Year Simulation of the Outer Electron Radiation Belt |
8 |
| Real-Time SWMF at CCMC: Assessing the Dst Output From Continuous Operational Simulations |
8 |
| Using Extreme Value Theory for Determining the Probability of Carrington-Like Solar Flares |
8 |
| Update on the Worsening Particle Radiation Environment Observed by CRaTER and Implications for Future Human Deep-Space Exploration |
8 |
| Coronal Magnetic Structure of Earthbound CMEs and In Situ Comparison |
8 |
| Regional 3-D Modeling and Verification of Geomagnetically Induced Currents in Sweden |
8 |
| A Variational Approach to Data Assimilation in the Solar Wind |
8 |
| The Response of African Equatorial/Low-Latitude Ionosphere to 2015 St. Patrick's Day Geomagnetic Storm |
8 |
| Transformer-Level Modeling of Geomagnetically Induced Currents in New Zealand's South Island |
8 |
| A New Method of Physics-Based Data Assimilation for the Quiet and Disturbed Thermosphere |
8 |
| Perturbed Input Ensemble Modeling With the Space Weather Modeling Framework |
8 |
| Large-Scale Traveling Ionospheric Disturbances Origin and Propagation: Case Study of the December 2015 Geomagnetic Storm |
7 |
| Effects of Phase Scintillation on the GNSS Positioning Error During the September 2017 Storm at Svalbard |
7 |
| Quantifying the Economic Value of Space Weather Forecasting for Power Grids: An Exploratory Study |
7 |
| An Empirical Model of Vertical Plasma Drift Over the African Sector |
7 |
| Benchmarking CME Arrival Time and Impact: Progress on Metaciata, Metrics, and Events |
7 |
| Solar Wind Properties and Geospace Impact of Coronal Mass Ejection-Driven Sheath Regions: Variation and Driver Dependence |
7 |
| New Capabilities for Prediction of High-Latitude Ionospheric Scintillation: A Novel Approach with Machine Learning |
7 |
