Add to ORKGA hybrid method based on Ray Tracing and Physical Optics for the estimation of the radar cross section of large metallic targets covered with radar absorbing materials is presented. The reflection coefficient of the multilayer structure composed by the metallic layer covered with radar absorbing materials is analytically evaluated through a transmission line model. The accuracy of the Radar Cross Section estimation is validated by full-wave simulations based on the Method of Moments. A corner reflector coated with Radar Absorbing Material (RAM) is used as a test-case of the proposed method. The obtained results exhibit a good agreement if compared against full-wave simulations
The hybrid vector finite element method and fast multipole algorithm (FEM-FMA) is used to calculate ...
The significance of Radar Cross Section (RCS) in the military applications makes its prediction an i...
Abstract—This paper presents a new method in order to estimate the Radar Cross Section (RCS) of larg...
A hybrid method based on Ray Tracing and Physical Optics for the estimation of the radar cross secti...
A RT-PO algorithm for the estimation of the Radar Cross Section of electrically large targets coated...
An efficient algorithm for the prediction of the RCS of electrically large targets, partially coated...
Radar Cross Section of electrically large targets which are partially coated with RAM is computed by...
When a wave strikes the object, the electric charge within the object induces current that results i...
Radar Cross Section of electrically large platforms which are partially coated with RAM is computed ...
Introduction. Remote monitoring of layered underlying surfaces is an urgent task. To assess the perf...
A physical optics based method is presented for calculation of monostatic Radar Cross-Section (RCS) ...
Abstract A full-wave analytical method using the addition theorems and Hertzian potential functions ...
A method for a fast prediction of the Radar Cross Section (RCS) reduction of large scattering object...
The present doctoral thesis deals with the calculation of the radar cross section (RCS) of ideally c...
The hybrid vector finite element method and fast multipole algorithm (FEM-FMA) is used to calculate ...
The hybrid vector finite element method and fast multipole algorithm (FEM-FMA) is used to calculate ...
The significance of Radar Cross Section (RCS) in the military applications makes its prediction an i...
Abstract—This paper presents a new method in order to estimate the Radar Cross Section (RCS) of larg...
A hybrid method based on Ray Tracing and Physical Optics for the estimation of the radar cross secti...
A RT-PO algorithm for the estimation of the Radar Cross Section of electrically large targets coated...
An efficient algorithm for the prediction of the RCS of electrically large targets, partially coated...
Radar Cross Section of electrically large targets which are partially coated with RAM is computed by...
When a wave strikes the object, the electric charge within the object induces current that results i...
Radar Cross Section of electrically large platforms which are partially coated with RAM is computed ...
Introduction. Remote monitoring of layered underlying surfaces is an urgent task. To assess the perf...
A physical optics based method is presented for calculation of monostatic Radar Cross-Section (RCS) ...
Abstract A full-wave analytical method using the addition theorems and Hertzian potential functions ...
A method for a fast prediction of the Radar Cross Section (RCS) reduction of large scattering object...
The present doctoral thesis deals with the calculation of the radar cross section (RCS) of ideally c...
The hybrid vector finite element method and fast multipole algorithm (FEM-FMA) is used to calculate ...
The hybrid vector finite element method and fast multipole algorithm (FEM-FMA) is used to calculate ...
The significance of Radar Cross Section (RCS) in the military applications makes its prediction an i...
Abstract—This paper presents a new method in order to estimate the Radar Cross Section (RCS) of larg...