An interdisciplinary ocean prediction system: Assimilation strategies ana structured data models

Carlos J. Lozano; Allan R. Robinson; Hernan G. Arango; Avijit Gangopadhyay; Quinn Sloan; Patrick J. Haley; Laurence Anderson; Wayne Leslie

doi:10.1016/S0422-9894(96)80018-3

An interdisciplinary ocean prediction system: Assimilation strategies ana structured data models

Carlos J. Lozano, Allan R. Robinson, Hernan G. Arango, Avijit Gangopadhyay, Quinn Sloan, Patrick J. Haley, Laurence Anderson Wayne Leslie

Elsevier Oceanography Series, pp.413-452

Elsevier B.V

1996

: https://doi.org/10.1016/S0422-9894(96)80018-3

An overview of ongoing research efforts for regional nowcasts, forecasts and hindcasts of physical, biogeochemical and acoustical fields is given. The estimation of oceanic fields is carried out using a modular and flexible system approach, intended to optimize data and model contact, facilitating a unified approach to interdisciplinary research. Recent developments in structured data models are presented, and generic and robust methods to combine structured data models, data streams and model fields, based upon suboptimal interpolation schemes are examined in the framework of data assimilation and dynamical interpolation.

: An interdisciplinary ocean prediction system: Assimilation strategies ana structured data models
: Carlos J. Lozano - Harvard University
Allan R. Robinson - Harvard University
Hernan G. Arango - Institute of Marine and Coastal Research
Avijit Gangopadhyay - Jet Propulsion Laboratory
Quinn Sloan - Planetary Science Institute
Patrick J. Haley - Harvard University
Laurence Anderson - Planetary Science Institute
Wayne Leslie - Harvard University
: Elsevier Oceanography Series, pp.413-452
: Elsevier B.V
: 40
: English
: Department of Estuarine and Ocean Sciences
: Book chapter
: 9780444820792; 0444820795
: 9914419405201301