Lessons learned from CCMC-led community-wide Model Validation Challenges. Outlook on international coordination of M&V activities. MODELS  DATA  TOOLS.

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Presentation transcript:

Lessons learned from CCMC-led community-wide Model Validation Challenges. Outlook on international coordination of M&V activities. MODELS  DATA  TOOLS  SYSTEMS  SERVICES  DATABASES M. Kuznetsova, M. L. Mays, C. Wiegand, A. Pulkkinen, L. Rastaetter, J-S. Shim, M. Maddox

CCMC Assets & Services Hands-on Education Models (expanding collection: > 60) Simulation Services (> 10,500 runs ) S pace W eather R esearch C enter Space Weather Services for NASA’s missions StereoCATDONKI FastTrack ScoreBoard Tools, Systems, Databases for dissemination, analysis, forecasting, validation Assessment, Metrics & Validation

Physical parameter most useful for specific applications. Good quality observational data. Algorithm for model-data comparison to produce skill score (metrics format). Model Validation: Elements of Metrics Model Validation: Elements of Metrics

Community-wide metrics studies (Modeling Challenges): GEM (2008) – Magnetosphere, CEDAR (2009) - Ionosphere SHINE (2011) – Solar Bring together modelers, data providers and users of space weather products to define physical parameters and metrics formats relevant to specific space weather applications, prepare observational data. Address uncertainties and challenges in model-data comparisons. Physical parameters from GEM-CEDAR Challanges (examples): -Magnetic perturbations at geosynch orbits -Joule Heating/Poynting Flux along DMSP -Auroral boundaries. -Neutral densities at CHAMP (~400 km) (point-by-point & orbit averaged). -Electron density parameters at CHAMP, ISRs, COSMIC. -TEC from ground-based GPS in eight 5° geographic longitude sectors. -Dst Index -Magnetic perturbations (dB/dt) at ground stations and regional K. Community-Wide Model Validation Efforts Community-Wide Model Validation Efforts

Automated Web-Based Validation System and Interactive Archive Time series data from a wide variety of models and quantities. Skill scores computed with plots. Observed Dst (black) and models (colors)

Operational Geospace Model Validation in support of SWPC geospace model selection Operational Geospace Model Validation in support of SWPC geospace model selection Community-wide efforts ( ) led by the CCMC established a foundation for operational geospace model selection based on model ability to reproduce dB/dt and regional K index. 6 events

Neutral densities at high altitudes (> 700 km). TEC in large geographical areas (America, Europe, Australia) (collaboration with MetOffice). Auroral boundaries. Ongoing Event-Based Validation activities

CME Arrival Prediction ScoreBoard The ScoreBoard is a research-based forecasting methods validation activity for CME arrival time predictions which provides a central location for the community to: submit their forecast in real-time, quickly view all forecasts at once in real-time, generate experimental community-wide ensemble forecasts, compare forecasting methods when the event has arrived All types of prediction models and methods are welcome from the world-wide community. There are currently 17 registered CME arrival time prediction methods, including entries from the CCMC/SWRC, SWPC, UK MetOffice, KSFC, COMESEP Average of all predictions is calculated for the user Columns are sortable!(click column headings)

Flare Forecasts ScoreBoard Planning (CCMC-MetOffice) Flare Forecasts ScoreBoard Planning (CCMC-MetOffice) Web site: First steps: -define file format for predictions, -automate file generation, uploading and archiving procedures, -move towards calibration of probability forecasts, by requesting to provide Threat Levels (X-Level, M_Level, C_Level: low, medium, or high). Sample file for full disk forecast: #File name format: Flare_Forecast_modelname_yyyymmdd_hhmm.txt Forecasting method: MAG4 Time: T12:00Z Input data: SDO/HMI LOS_Magnetogram Prediction window (hours): 24 #Full Disk Forecast #X_prob X_uncert X_Level M_prob M_uncert M_Level C_prob C_uncert C_Level #X-prob, M-prob, C-prob: Probability of X, M or C class flare in decimal format (4 places) #X_uncert, M_uncert, C_uncert: Uncertainty in X, M or C class flare probability in decimal format (4 places) (optional) #X_Level, M_Level, C_Level: Calibration of probability for the model for X, M or C class flares (1=low, 2=medium, 3=high) #Use ---- when leaving optional fields empty

Metrics & Validation Forecasting Methods ScoreBoards Impacts vs Space Environment Events Forecasts Event-Based M&V to Trace Model Improvement Testing predictive capability before the event onset. A list of events. High quality data. A library of metrics. Simulate the same set of events over and over… Examples: CME Arrival Prediction Flare Forecasts SEP Forecasts A need for database of space environment impacts. Examples: TEC, Neutral density, Ground magnetic perturbations A need for database of events & alerts. Surface Charging 2003/10/ / /12/ / /04/ / /08/ /07 ………………………