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Oceanography The Official Magazine of
The Oceanography Society
Volume 22 Issue 02

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Volume 22, No. 2
Pages 64 - 75

OpenAccess

US GODAE: Global Ocean Prediction with the HYbrid Coordinate Ocean Model (HYCOM)

By echassignet@coaps.fsu.edu

Affiliation:

Center for Ocean-Atmospheric Prediction Studies, Florida State University, Tallahassee, FL, USA



Search for more papers by this author">Eric P. Chassignet , Search for more papers by this author">Harley E. Hurlburt, Search for more papers by this author">E. Joseph Metzger, Search for more papers by this author">Ole Martin Smedstad, Search for more papers by this author">James A. Cummings, Search for more papers by this author">George R. Halliwell , Search for more papers by this author">Rainer Bleck , Search for more papers by this author">Remy Baraille, Search for more papers by this author">Alan J. Wallcraft, Search for more papers by this author">Carlos Lozano , Search for more papers by this author">Hendrik L. Tolman, Search for more papers by this author">Ashwanth Srinivasan, Search for more papers by this author">Steve Hankin , Search for more papers by this author">Peter Cornillon, Search for more papers by this author">Robert Weisberg , Search for more papers by this author">Alexander Barth , Search for more papers by this author">Ruoying He, Search for more papers by this author">Francisco Werner , and Search for more papers by this author">John Wilkin 
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Article Abstract

During the past five to ten years, a broad partnership of institutions under NOPP sponsorship has collaborated in developing and demonstrating the performance and application of eddy-resolving, real-time global- and basin-scale ocean prediction systems using the HYbrid Coordinate Ocean Model (HYCOM). The partnership represents a broad spectrum of the oceanographic community, bringing together academia, federal agencies, and industry/commercial entities, and spanning modeling, data assimilation, data management and serving, observational capabilities, and application of HYCOM prediction system outputs. In addition to providing real-time, eddy-resolving global- and basin-scale ocean prediction systems for the US Navy and NOAA, this project also offered an outstanding opportunity for NOAA-Navy collaboration and cooperation, ranging from research to the operational level. This paper provides an overview of the global HYCOM ocean prediction system and highlights some of its achievements. An important outcome of this effort is the capability of the global system to provide boundary conditions to even higher-resolution regional and coastal models.

Citation

Chassignet, E.P., H.E. Hurlburt, E.J. Metzger, O.M. Smedstad, J.A. Cummings, G.R. Halliwell, R. Bleck, R. Baraille, A.J. Wallcraft, C. Lozano, H.L. Tolman, A. Srinivasan, S. Hankin, P. Cornillon, R. Weisberg, A. Barth, R. He, F. Werner, and J. Wilkin. 2009. US GODAE: Global ocean prediction with the HYbrid Coordinate Ocean Model (HYCOM). Oceanography 22(2):64–75, https://doi.org/10.5670/oceanog.2009.39.

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