Add to ORKGInternational audienceIn view of improving numerical flood prediction, a variational data assimilation method (4D-var) applied to a 2D shallow water model and using distributed water level obtained from one Synthetic Aperture Radar (SAR) image is presented. The RADARSAT-1 image leads to water levels with a ±40cm average vertical uncertainty of a Mosel River flood event (1997, France). Assimilated in the 2D shallow water hydraulic model, these SAR derived spatially distributed water levels prove to be capable of enhancing model calibration. Indeed, the assimilation process can identify some optimal Manning friction coefficients. Moreover, used as a guide for sensitivity analysis, remote sensing water levels allow also in identifying some are...
Fast and precise flood forecasting is essential to decision-making with regard to flood management. ...
A variational data assimilation (4D-Var) method is proposed to directly assimilate flood extents int...
Satellite-based active microwave sensors not only provide synoptic overviews of flooded areas, but a...
International audienceIn view of improving numerical flood prediction, a variational data assimilati...
In view of improving numerical flood prediction, a variational data assimilation method (4D-var) app...
[Departement_IRSTEA]Territoires [TR1_IRSTEA]SYNERGIEInternational audienceWith rapid flood extent ma...
International audienceRecent applications of remote sensing techniques produce rich spatially distri...
With the onset of new satellite radar constellations (e.g. Sentinel-1) and advances in computational...
Flood extents caused by fluvial floods in urban and rural areas may be predicted by hydraulic models...
Satellite-based active microwave sensors not only provide synoptic overviews of flooded areas, but a...
With the onset of new satellite radar constellations (e.g. Sentinel-1) and advances in computational...
Coupled hydrologic and hydraulic models represent powerful tools for simulating streamflow and wate...
Minisymposia - 10 Fluid Mechanics: Multiphysics and multiscale methods in hydrodynamicsInternational...
Fast and precise flood forecasting is essential to decision-making with regard to flood management. ...
A variational data assimilation (4D-Var) method is proposed to directly assimilate flood extents int...
Satellite-based active microwave sensors not only provide synoptic overviews of flooded areas, but a...
International audienceIn view of improving numerical flood prediction, a variational data assimilati...
In view of improving numerical flood prediction, a variational data assimilation method (4D-var) app...
[Departement_IRSTEA]Territoires [TR1_IRSTEA]SYNERGIEInternational audienceWith rapid flood extent ma...
International audienceRecent applications of remote sensing techniques produce rich spatially distri...
With the onset of new satellite radar constellations (e.g. Sentinel-1) and advances in computational...
Flood extents caused by fluvial floods in urban and rural areas may be predicted by hydraulic models...
Satellite-based active microwave sensors not only provide synoptic overviews of flooded areas, but a...
With the onset of new satellite radar constellations (e.g. Sentinel-1) and advances in computational...
Coupled hydrologic and hydraulic models represent powerful tools for simulating streamflow and wate...
Minisymposia - 10 Fluid Mechanics: Multiphysics and multiscale methods in hydrodynamicsInternational...
Fast and precise flood forecasting is essential to decision-making with regard to flood management. ...
A variational data assimilation (4D-Var) method is proposed to directly assimilate flood extents int...
Satellite-based active microwave sensors not only provide synoptic overviews of flooded areas, but a...