Add to ORKGInternational audienceWithin the Marine Surface Boundary Layer, evaporation ducting greatly affects the radar performances. The vertical refractivity profiles are classically computed by bulk models and these profiles can be fitted, with a very good accuracy, by analytical expressions involving four parameters to be determined. With machine learning techniques and particularly a decision tree regressor, we directly obtained these parameters from the physical bulk inputs. The resulting refractivity profiles are generally very close to the original ones and in terms of propagation results, we obtained mean errors around 1 dB by computing the propagation factor for classical radar scenarios
Within the Earth’s atmosphere there is a planetary boundary layer that extends from the surface to r...
Predictions of environmental conditions within the marine atmospheric surface layer (MASL) are impor...
The detection and tracking of naval targets, including low RCS objects like inflatable boats require...
International audienceWithin the Marine Surface Boundary Layer, evaporation ducting greatly affects ...
International audienceAs ducting situations considerably modify the radar coverages in maritime situ...
99 pagesThis dissertation explores machine learning approaches for estimating the refractivity withi...
[1] This paper addresses the problem of estimating the lower atmospheric refractivity (M profile) un...
Environmental predictions in the marine atmospheric surface layer (MASL) are imperative to optimize ...
International audienceSea environment is a complex and changing medium which causes important variat...
[1] This paper addresses the problem of estimating the lower atmospheric refractivity ( M profile) u...
Estimation of the atmospheric refractivity is important for the prediction of radar performance. Sur...
An atmospheric refractivity inversion method based on deep learning is introduced. Atmospheric duct ...
In many maritime regions of the world, such as the Mediterranean, Persian Gulf, East China Sea, and ...
International audienceFor coastal and ship-borne survey radars, coverage prediction is a critical qu...
For coastal and ship-borne survey radars, coverage prediction is a critical question. In sea environ...
Within the Earth’s atmosphere there is a planetary boundary layer that extends from the surface to r...
Predictions of environmental conditions within the marine atmospheric surface layer (MASL) are impor...
The detection and tracking of naval targets, including low RCS objects like inflatable boats require...
International audienceWithin the Marine Surface Boundary Layer, evaporation ducting greatly affects ...
International audienceAs ducting situations considerably modify the radar coverages in maritime situ...
99 pagesThis dissertation explores machine learning approaches for estimating the refractivity withi...
[1] This paper addresses the problem of estimating the lower atmospheric refractivity (M profile) un...
Environmental predictions in the marine atmospheric surface layer (MASL) are imperative to optimize ...
International audienceSea environment is a complex and changing medium which causes important variat...
[1] This paper addresses the problem of estimating the lower atmospheric refractivity ( M profile) u...
Estimation of the atmospheric refractivity is important for the prediction of radar performance. Sur...
An atmospheric refractivity inversion method based on deep learning is introduced. Atmospheric duct ...
In many maritime regions of the world, such as the Mediterranean, Persian Gulf, East China Sea, and ...
International audienceFor coastal and ship-borne survey radars, coverage prediction is a critical qu...
For coastal and ship-borne survey radars, coverage prediction is a critical question. In sea environ...
Within the Earth’s atmosphere there is a planetary boundary layer that extends from the surface to r...
Predictions of environmental conditions within the marine atmospheric surface layer (MASL) are impor...
The detection and tracking of naval targets, including low RCS objects like inflatable boats require...