Add to ORKGIn this study, a new estimate for the Mean Dynamic Topography (MDT) and its error description is analysed in terms of its impact on the performance of ocean models. For the first time, a full MDT error covariance matrix is available whose inverse can readily be used as weighting matrix in the optimization. Two different steady-state inverse ocean models are analysed in terms of their response to the new MDT data set. The output of each of these ocean models in turn provides a combined satellite-ocean model MDT. This study investigates whether the inverse ocean models benefit from the new MDT data set and its error covariance. It is examined whether oceanographic features such as the ocean current structure, the overturning circulation and h...
International audienceThe mean dynamic topography of the surface of the ocean is estimated using a f...
Absolute dynamic topography, i.e. the difference between time dependent multi-mission altimetric sea...
In anticipation of the future observations of the gravity mission Gravity Field and Steady-State Oce...
In this study, a new estimate for the Mean Dynamic Topography (MDT) and its error description is ana...
Many characteristics of the ocean circulation are reflected in the mean dynamic topography (MDT). Th...
Geostrophic surface velocities can be derived from the gradients of the mean dynamic topography-the ...
The accurate knowledge of the ocean's mean dynamic topography (MDT) is a crucial issue for a number ...
Mean dynamic topography (MDT) is crucial for research in oceanography and climatology. The optimal i...
General ocean circulation models are not perfect. Forced with observed atmospheric fluxes they gradu...
Some recently designed gravity field models together with their variance/ covariance information cou...
General ocean circulation models are not perfect. Forced with observed atmospheric fluxes they gradu...
General ocean circulation models are not perfect. Forced with observed atmospheric fluxes they gradu...
General ocean circulation models are not perfect. Forced with observed atmospheric fluxes they gradu...
In principle the global mean geostrophic surface circulation of the ocean can be diagnosed by subtra...
General ocean circulation models are not perfect. Forced with observed atmospheric fluxes they gradu...
International audienceThe mean dynamic topography of the surface of the ocean is estimated using a f...
Absolute dynamic topography, i.e. the difference between time dependent multi-mission altimetric sea...
In anticipation of the future observations of the gravity mission Gravity Field and Steady-State Oce...
In this study, a new estimate for the Mean Dynamic Topography (MDT) and its error description is ana...
Many characteristics of the ocean circulation are reflected in the mean dynamic topography (MDT). Th...
Geostrophic surface velocities can be derived from the gradients of the mean dynamic topography-the ...
The accurate knowledge of the ocean's mean dynamic topography (MDT) is a crucial issue for a number ...
Mean dynamic topography (MDT) is crucial for research in oceanography and climatology. The optimal i...
General ocean circulation models are not perfect. Forced with observed atmospheric fluxes they gradu...
Some recently designed gravity field models together with their variance/ covariance information cou...
General ocean circulation models are not perfect. Forced with observed atmospheric fluxes they gradu...
General ocean circulation models are not perfect. Forced with observed atmospheric fluxes they gradu...
General ocean circulation models are not perfect. Forced with observed atmospheric fluxes they gradu...
In principle the global mean geostrophic surface circulation of the ocean can be diagnosed by subtra...
General ocean circulation models are not perfect. Forced with observed atmospheric fluxes they gradu...
International audienceThe mean dynamic topography of the surface of the ocean is estimated using a f...
Absolute dynamic topography, i.e. the difference between time dependent multi-mission altimetric sea...
In anticipation of the future observations of the gravity mission Gravity Field and Steady-State Oce...