North American Ensemble Forecast System
The North American Ensemble Forecast System (NAEFS) is a joint project involving the Meteorological Service of Canada (MSC) in Canada, the National Weather Service (NWS) in the United States, and the National Meteorological Service of Mexico (NMSM) in Mexico providing numerical weather prediction ensemble guidance for the 1- to 16-day forecast period.[1] The NAEFS combines the Canadian MSC (Global Environmental Multiscale Model) and the US NWS global ensemble prediction systems (Global Forecast System), improving probabilistic operational guidance over what can be built from any individual country's ensemble.[1] Model guidance from the NAEFS is incorporated into the forecasts of the respective national agencies.[2][3]
NAEFS operates on the fundamental principles of ensemble forecasting which provides a range of possible weather forecasts of the atmospheric state over a given forecast period. The initial state of the atmosphere and/or the numerical weather prediction model configuration are slightly varied to provide a range of possible forecast solutions.[4][5] The global ensemble prediction systems at MSC and NWS use slightly different, but equally valid methods to initialize and integrate the atmospheric state. By combining the ensembles from both centers into one ensemble, the possible range of future atmospheric states for a given forecast period are better sampled, producing on average, improved estimates of the future atmospheric state and the associated uncertainty.[6][7][8] NAEFS collaboration allows the national weather agencies to pool their research resources and make improvements to the ensemble prediction systems more quickly and efficiently. The exchange of knowledge allows research and operations to develop a new generation of ensemble products with the goal of improving timeliness and accuracy in alerting the public of high impact weather events.
History
Officials from the MSC and the NWS first met in February 2003 to discuss building a joint ensemble prediction system. In May 2003, weather modeling experts from Canada and the U.S. held a workshop to start planning the research, development, and operational implementation of the NAEFS. The initial NAEFS development plan was completed in October 2003. Intensive work for the Initial Operational Capability implementation then began, and was successfully completed on schedule in September 2004. NAEFS was launched in November 2004 in the presence of representatives of the three countries.[1]
Technical details
The NAEFS constituent ensemble prediction systems and post-processing techniques are continually upgraded to include improved scientific understanding of atmospheric phenomenon, advances in computational methods, and advances in computing, among other reasons. Implementation changes to the NWS global ensemble prediction system (GEFS), global forecast model (GFS) configuration and NWS NAEFS post-processed products can be found at the NWS National Centers for Environmental Prediction Central Operations website. The NWS provides global and downscaled (CONUS and Alaska) and MSC provides global post-processed model guidance on various standard pressure-levels.
NAEFS | |
---|---|
Models | NWS Global Forecasting System (GFS) +
MSC Global Environmental Multiscale Model (GEM) |
Daily Frequency | 0000 UTC and 1200 UTC |
Forecast Length | 16 days |
Initial Condition Uncertainty | Ensemble Kalman Filter (EnKF)[9] |
Control | 1 NWS + 1 MSC |
Ensemble Members | 40 (20 NWS + 20 MSC) for each cycle |
Post-Processed Probabilistic
Products |
mean, mode, standard deviation,
and probabilities (10%, 50%, 90%) |
Post-Processed Probabilistic
Product Resolution |
NWS/MSC: 1° x 1° global products
NWS: downscaled CONUS 2.5 km, Alaska 3 km |
Research use
NAEFS has been the subject of meteorological research.[8][10][11][12] A few such research studies have compared NAEFS with the THORPEX Interactive Grand Global Ensemble (TIGGE), a part of THORPEX, an initiative of the World Meteorological Organization to determine whether combining them can yield even better forecasts than either one individually.[12][13]
See also
- MSC NAEFS
- NCEP Central Operations NAEFS Model Analysis and Guidance
- Global Forecast System
- Global Environmental Multiscale Model
- THORPEX Interactive Grand Global Ensemble
- NAEFS NCEP Climate Prediction Center Experimental Forecast
References
- ^ a b c "North American Ensemble Forecast System (NAEFS)". Weather (Canada). Retrieved April 19, 2014.
- ^ "NCEP Central Operations". National Weather Service. Retrieved April 19, 2014.
- ^ "Temperature Anomaly Forecast: Day 8 to 14 Outlooks". Weather (Canada). Retrieved April 19, 2014.
- ^ Toth, Zoltan; Kalnay, Eugenia (1993-12-01). "Ensemble Forecasting at NMC: The Generation of Perturbations". Bulletin of the American Meteorological Society. 74 (12): 2317–2330. Bibcode:1993BAMS...74.2317T. doi:10.1175/1520-0477(1993)074<2317:efantg>2.0.co;2. ISSN 0003-0007.
- ^ Molteni, F.; Buizza, R.; Palmer, T. N.; Petroliagis, T. (1996-01-01). "The ECMWF Ensemble Prediction System: Methodology and validation". Quarterly Journal of the Royal Meteorological Society. 122 (529): 73–119. Bibcode:1996QJRMS.122...73M. doi:10.1002/qj.49712252905. ISSN 1477-870X.
- ^ Palmer, T. N.; Doblas-Reyes, F. J.; Hagedorn, R.; Alessandri, A.; Gualdi, S.; Andersen, U.; Feddersen, H.; Cantelaube, P.; Terres, J-M. (2004-06-01). "Development of a european multimodel ensemble system for seasonal-to-interannual prediction (demeter)" (PDF). Bulletin of the American Meteorological Society. 85 (6): 853–872. Bibcode:2004BAMS...85..853P. doi:10.1175/BAMS-85-6-853. ISSN 0003-0007.
- ^ Barnston, Anthony G.; Mason, Simon J.; Goddard, Lisa; Dewitt, David G.; Zebiak, Stephen E. (2003-12-01). "Multimodel Ensembling in Seasonal Climate Forecasting at IRI". Bulletin of the American Meteorological Society. 84 (12): 1783–1796. Bibcode:2003BAMS...84.1783B. doi:10.1175/BAMS-84-12-1783. ISSN 0003-0007.
- ^ a b Candille, Guillem; Beauregard, Stéphane; Gagnon, Normand (2010-06-22). "Bias Correction and Multiensemble in the NAEFS Context or How to Get a "Free Calibration" through a Multiensemble Approach". Monthly Weather Review. 138 (11): 4268–4281. Bibcode:2010MWRv..138.4268C. doi:10.1175/2010MWR3349.1. ISSN 0027-0644.
- ^ Evensen, Geir (1994-05-15). "Sequential data assimilation with a nonlinear quasi-geostrophic model using Monte Carlo methods to forecast error statistics". Journal of Geophysical Research: Oceans. 99 (C5): 10143–10162. Bibcode:1994JGR....9910143E. doi:10.1029/94JC00572. hdl:1956/3035. ISSN 2156-2202.
- ^ A. Peitroniro; et al. (2007). "Development of the MESH modelling system for hydrological ensemble forecasting of the Laurentian Great Lakes at the regional scale" (PDF). Hydrology and Earth System Sciences. 11 (4): 1279–1294. doi:10.5194/hess-11-1279-2007.
- ^ "A Meeting of the Models: North American and International Multimodel Forecasting in Research and Operations". American Geophysical Union. January 2009. Retrieved April 19, 2014.
- ^ a b Candille, Guillem (May 5, 2009). "The Multiensemble Approach: The NAEFS Example". Monthly Weather Review. 137 (5).
- ^ Zhu, Y.; Toth, Z.; Rutledge, Glenn K. "TIGGE and NAEFS: Research and operational developments in multi-center ensemble forecasting". American Geophysical Union, Spring Meeting 2008. Retrieved April 19, 2014.
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