Dual U–Vision–Transformer for reconstructing the three-dimensional eddy-resolving oceanic physical parameters from satellite observations

Dual U–Vision–Transformer for reconstructing the three-dimensional eddy-resolving oceanic physical parameters from satellite observations

Three-dimensional (3-D) observations are crucial for understanding structures and evolution of ocean dynamic processes. This study proposes a dual U–Vision–Transformer (DUViT) model to reconstruct 3-D, eddy-resolving ocean temperature, salinity, and horizontal current fields from multi-resolution da...

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Bibliographic Details
Main Authors: Huarong Xie, Changming Dong, Qing Xu
Format: Article
Language:English
Published: Elsevier 2025-02-01
Series:International Journal of Applied Earth Observations and Geoinformation
Subjects:
3-D oceanic physical parameters
Multi-resolution satellite observations
Deep learning
Ocean circulation
Mesoscale eddy
South China sea
Online Access:http://www.sciencedirect.com/science/article/pii/S1569843225000299
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Summary:Three-dimensional (3-D) observations are crucial for understanding structures and evolution of ocean dynamic processes. This study proposes a dual U–Vision–Transformer (DUViT) model to reconstruct 3-D, eddy-resolving ocean temperature, salinity, and horizontal current fields from multi-resolution data observed by satellites at the sea surface. Daily parameter profiles from a reanalysis product with a 0.083° grid serve as labels for establishing and evaluating the model. Results demonstrate that the DUViT model can reproduce 3-D physical variables on scales from the basin scale to the mesoscale within the upper 2000 m of the South China Sea. Average root mean square errors between model estimations and reanalysis data are 0.039 ℃, 0.017 psu, and 0.012 m/s for temperature, salinity, and current profiles, respectively, with correlation coefficients above 0.9. Moreover, the reconstructed temperature and salinity profiles and their evolution agree well with in-situ observations with the correlation coefficients above 0.94. Case studies indicate that the DUViT model can effectively reproduce the 3-D structures of the circulation in the upper ocean and mesoscale eddies and distinguish mode-water eddies from general anticyclonic eddies. The integration of high-resolution satellite observations with the DUViT model enables accurate 3-D reconstruction of ocean phenomena across scales, which will offer new insights into the dynamics of marginal seas and open oceans.
ISSN:1569-8432

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