Eddy Resolving Global Ocean Prediction

This is the first year of a 3-year Challenge Project that aims at providing a real-time depiction of the three-dimensional global ocean state at fine resolution (1/25 degree on the equator, 3.5 km at mid-latitudes, and 2 km in the Arctic). The prediction system will not run in real time until FY12,...

Full description

Bibliographic Details
Main Authors: Wallcraft, Alan J, E J Metzger, Smedstad, Ole M
Other Authors: NAVAL RESEARCH LAB STENNIS DETACHMENT STENNIS SPACE CENTER MS OCEANOGRAPHY DIV
Format: Text
Language:English
Published: 2010
Subjects:
Meteorology
Physical and Dynamic Oceanography
Fluid Mechanics
*ATMOSPHERE MODELS
*EDDIES(FLUID MECHANICS)
*FORECASTING
*HIGH RESOLUTION
*OCEAN MODELS
*PREDICTIONS
*REAL TIME
COASTAL REGIONS
DEEP WATER
GRIDS(COORDINATES)
MEASUREMENT
METEOROLOGICAL DATA
OCEAN TIDES
OCEANOGRAPHIC DATA
SALINITY
SATELLITE IMAGERY
SEA ICE
SHALLOW WATER
SYMPOSIA
TEMPERATURE
THREE DIMENSIONAL
WIND
*OCEAN MODEL DESIGN
*GLOBAL HYCOM(GLOBAL HYBRID COORDINATE OCEAN MODEL)
*NOWCASTING
*DATA ASSIMILATION
VERTICAL RESOLUTION
HORIZONTAL RESOLUTION
HINDCASTING
SEA SURFACE TEMPERATURE
BOUNDARY CONDITIONS
COASTAL MODELS
EXTERNAL TIDES
INTERNAL TIDES
CTD(CONDUCTIVITY TEMPERATURE DEPTH)
THERMAL FORCING
SATELLITE ALTIMETER DATA
SONIC LAYER DEPTH
PE0602435N
WUNRL738677195
Arctic
Pacific
Sea ice
Online Access:http://www.dtic.mil/docs/citations/ADA557061
http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA557061
Description
Summary:This is the first year of a 3-year Challenge Project that aims at providing a real-time depiction of the three-dimensional global ocean state at fine resolution (1/25 degree on the equator, 3.5 km at mid-latitudes, and 2 km in the Arctic). The prediction system will not run in real time until FY12, since this is when the first computer large enough to run it in real time is expected to be available at NAVOCEANO. A major sub-goal of this effort is to test new capabilities in the existing 1/12 degree global HYbrid Coordinate Ocean Model (HYCOM) nowcast/forecasl system and to transition some of these capabilities to NAVOCEANO in the existing 1/12 degree global system, and others in the 1/25 degree system. The new capabilities support the following: (1) increased nowcast and forecast skill, the latter out to 30 days in many deep water regions, including regions of high Navy interest, such as the Western Pacific and the Arabian Sea/Gulf of Oman; (2) boundary conditions for coastal models in very shallow water (to zero depth with wetting and drying); and (3) external and internal tides, the latter with initial testing at 1/12 degree but transitioning to NAVOCEANO in the 1/25 degree system (all these will greatly benefit from the increase to 1/25 degree resolution). At 1/25 degree, the entire first year will be spent on initial climatologically forced nonassimilative simulations that are necessary before we can start data assimilation hindcasts. At 1/12 degree, we have started exploring improved model configurations with climatologically forced runs and testing improved data assimilation with hindcast cases. Published in the Proceedings of the 2009 DoD High Performance Computing Modernization Program Users Group Conference (HPCMP-UGC 2009), p254-257, 2009.

Similar Items