Add to ORKGHF radar measurements are used to optimize surface wind forcing and baroclinic open boundary condition (OBC) forcing in order to constrain model coastal surface cur- rents. This method is applied to a northwestern Mediterranean (NWM) regional primitive equation model configuration. A new radar data set, provided by two radars deployed in the Toulon area (France), is used. To our knowledge, this is the first time that radar mea- surements of the NWM Sea are assimilated into a circulation model. Special attention has been paid to the improvement of the model coastal current in terms of speed and position. The data assimilation method uses an ensemble Kalman smoother to optimize forcing in order to improve the model trajectory. Twin ex...
The impact of the assimilation of HFR (high-frequency radar) observations in a high-resolution regio...
La Mer d’Iroise est observée depuis 2006, par des radars à haute fréquence (HF) qui estiment les cou...
Surface winds are crucial for accurately modeling the surface circulation in the coastal ocean. In t...
HF radar measurements are used to optimize surface wind forcing and baroclinic open boundary conditi...
Correction of open boundary conditions (OBC) is attempted to improve surface velocity fields by assi...
Le radar HF est actuellement le seul instrument courantométrique permettant d'obtenir une descriptio...
The HF radar is the sole instrument being able to monitor the surface coastal current at very high s...
The results of coastal ocean models depend critically on the accuracy of boundary and initial condit...
An ensemble smoother scheme is presented to assimilate high-frequency (HF) radar surface currents to...
The circulation in the Ligurian Sea is dominated by strong currents, namely the Western Corsican Cur...
Accurate forecasting of surface currents in coastal waters is of great importance for operations suc...
The impact of HF radar observations on constraining and improving model forecasts of the coastal oce...
Numerical ocean models are affected by errors of various origins: errors in the initial conditions, ...
The improved Drift Forecasting in Coastal Waters (IDFCW) project, between Proudman Oceanographic Lab...
Surface winds are crucial for accurately modeling the surface circulation in the coastal ocean. In t...
The impact of the assimilation of HFR (high-frequency radar) observations in a high-resolution regio...
La Mer d’Iroise est observée depuis 2006, par des radars à haute fréquence (HF) qui estiment les cou...
Surface winds are crucial for accurately modeling the surface circulation in the coastal ocean. In t...
HF radar measurements are used to optimize surface wind forcing and baroclinic open boundary conditi...
Correction of open boundary conditions (OBC) is attempted to improve surface velocity fields by assi...
Le radar HF est actuellement le seul instrument courantométrique permettant d'obtenir une descriptio...
The HF radar is the sole instrument being able to monitor the surface coastal current at very high s...
The results of coastal ocean models depend critically on the accuracy of boundary and initial condit...
An ensemble smoother scheme is presented to assimilate high-frequency (HF) radar surface currents to...
The circulation in the Ligurian Sea is dominated by strong currents, namely the Western Corsican Cur...
Accurate forecasting of surface currents in coastal waters is of great importance for operations suc...
The impact of HF radar observations on constraining and improving model forecasts of the coastal oce...
Numerical ocean models are affected by errors of various origins: errors in the initial conditions, ...
The improved Drift Forecasting in Coastal Waters (IDFCW) project, between Proudman Oceanographic Lab...
Surface winds are crucial for accurately modeling the surface circulation in the coastal ocean. In t...
The impact of the assimilation of HFR (high-frequency radar) observations in a high-resolution regio...
La Mer d’Iroise est observée depuis 2006, par des radars à haute fréquence (HF) qui estiment les cou...
Surface winds are crucial for accurately modeling the surface circulation in the coastal ocean. In t...