Add to ORKGInternational audienceOne popular approach to solve the sea surface scattering and propagation in a ducting environment is the parabolic wave equation (PWE) method. An alternative method is the boundary integral equations (BIE) method. The implementation of the BIE in inhomogeneous media (ducting environments) is not straightforward, however, since the Green's function for such a medium is not usually known. In this paper, a closed-form approximation of the Green's function for a two-dimensional (2-D) ducting environment made up of a duct having a linear-square refractive index profile below a medium of constant refractive index, recently published, is used. This paper demonstrates how the BIE method can model the combined effects of surfac...
International audienceIn a previous paper, by combining three techniques, i.e., Subdomain Decomposi-...
Radar propagation near the sea surface depends on meteorological conditions and sea surface roughnes...
International audienceWe present a boundary integral method for the solution of the rigorous problem...
International audienceIn coastal and maritime regions the microwave propagation is affected by the h...
International audienceFor a two-dimensional problem and at microwaveradar frequencies, in a previous...
International audiencePropagation and low grazing angle (LGA) scattering of centimetre-scale electro...
The aim of this thesis is to estimate the field scattered by a rough sea surface in the presence of ...
In the maritime boundary layer, air-sea interaction processes have an important impact on radar prop...
This paper deals with a study of the influence of sea surface roughness on the electromagnetic wave ...
Abstract—The performance assessment of maritime microwave communications and radar systems requires ...
The performance of radar sensors operating within the marine boundary layer is severely influenced b...
WOSInternational audienceThis study presents work on radar links in the maritime environment. In ord...
To predict the performance of coastal and shipborne radars, it is essential to assess the propagatio...
Abstract—We present a boundary integral method for the solu-tion of the rigorous problem of microwav...
International audienceIn a previous paper, by combining three techniques, i.e., Subdomain Decomposi-...
Radar propagation near the sea surface depends on meteorological conditions and sea surface roughnes...
International audienceWe present a boundary integral method for the solution of the rigorous problem...
International audienceIn coastal and maritime regions the microwave propagation is affected by the h...
International audienceFor a two-dimensional problem and at microwaveradar frequencies, in a previous...
International audiencePropagation and low grazing angle (LGA) scattering of centimetre-scale electro...
The aim of this thesis is to estimate the field scattered by a rough sea surface in the presence of ...
In the maritime boundary layer, air-sea interaction processes have an important impact on radar prop...
This paper deals with a study of the influence of sea surface roughness on the electromagnetic wave ...
Abstract—The performance assessment of maritime microwave communications and radar systems requires ...
The performance of radar sensors operating within the marine boundary layer is severely influenced b...
WOSInternational audienceThis study presents work on radar links in the maritime environment. In ord...
To predict the performance of coastal and shipborne radars, it is essential to assess the propagatio...
Abstract—We present a boundary integral method for the solu-tion of the rigorous problem of microwav...
International audienceIn a previous paper, by combining three techniques, i.e., Subdomain Decomposi-...
Radar propagation near the sea surface depends on meteorological conditions and sea surface roughnes...
International audienceWe present a boundary integral method for the solution of the rigorous problem...