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Comparative study on assimilating remote sensing high frequency radar surface currents at an atlantic marine renewable energy test site

Ren, Lei
Hartnett, Michael
Identifiers
http://hdl.handle.net/10379/13629
 https://doi.org/10.13025/26925
Publication Date
2017-12-19
Keywords
data assimilation, surface currents, direct insertion, optimal interpolation, nudging, wind stress, radars, efdc, galway bay, variational data assimilation, ensemble kalman filter, coastal ocean model, hf radar, galway bay, mediterranean sea, numerical-model, satellite data, system, prediction
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Article
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Citation
Ren, Lei; Hartnett, Michael (2017). Comparative study on assimilating remote sensing high frequency radar surface currents at an atlantic marine renewable energy test site. Remote Sensing 9 (12),
Abstract
A variety of data assimilation approaches have been applied to enhance modelling capability and accuracy using observations from different sources. The algorithms have varying degrees of complexity of implementation, and they improve model results with varying degrees of success. Very little work has been carried out on comparing the implementation of different data assimilation algorithms using High Frequency radar (HFR) data into models of complex inshore waters strongly influenced by both tides and wind dynamics, such as Galway Bay. This research entailed implementing four different data assimilation algorithms: Direct Insertion (DI), Optimal Interpolation (OI), Nudging and indirect data assimilation via correcting model forcing into a three-dimensional hydrodynamic model and carrying out detailed comparisons of model performances. This work will allow researchers to directly compare four of the most common data assimilation algorithms being used in operational coastal hydrodynamics. The suitability of practical data assimilation algorithms for hindcasting and forecasting in shallow coastal waters subjected to alternate wetting and drying using data collected from radars was assessed. Results indicated that a forecasting system of surface currents based on the three-dimensional model EFDC (Environmental Fluid Dynamics Code) and the HFR data using a Nudging or DI algorithm was considered the most appropriate for Galway Bay. The largest averaged Data Assimilation Skill Score (DASS) over the 6 h forecasting period from the best model NDA attained 26% and 31% for east-west and north-south surface velocity components respectively. Because of its ease of implementation and its accuracy, this data assimilation system can provide timely and useful information for various practical coastal hindcast and forecast operations.
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Publisher
MDPI AG
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Attribution-NonCommercial-NoDerivs 3.0 Ireland
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Externally hosted open access publications with University of Galway authors (2)