Add to ORKGRadar cross section (RCS) of complex targets can be obtained in real time using the hardware capabilities of a high performance graphic workstation. Target geometry is modelled by a computer-aided design package. First order contribution to RCS is computed under physical optics high-frequency approximation. Real time computation is achieved through graphical processing of an image obtained with local illumination modeling of the target. Multiple scattering contribution can be obtained using radiosity algorithm, a recently developed global illumination method.Peer Reviewe
The simulation of radar cross-section (RCS) models in FPGA is illustrated. The models adopted are th...
The theoretical, analytical, and experimental results are described for radar cross sections (RCS) o...
In this study, a computer code is developed in MATLAB® to compute the Radar Cross Section (RCS) of a...
Radar cross section (RCS) of complex targets can be obtained in real time using the hardware capabil...
Radar cross section (RCS) of complex targets can be obtained in real time using the hardware capabil...
Radar cross section (RCS) of complex targets can be obtained in real time using the hardware capabil...
Abstract-This paper presents a new and original approach for computing the high-frequency radar cros...
A set of algorithms and procedures to compute radar cross section (RCS) of aircraft are presented. T...
An innovative approach to computing the high-frequency radar cross sections (RCSs) of complex radar ...
The results presented at this workshop have been obtained with a new and original approach: hardware...
The significance of Radar Cross Section (RCS) in the military applications makes its prediction an i...
This contribution to the special session in honor of Prof. Rafael Gómez-Martín will address the 30 y...
Radar Cross Section of electrically large platforms which are partially coated with RAM is computed ...
In this study, a MATLAB® code based on the Shooting and Bouncing Ray (SBR) algorithm is developed to...
A significant problem in electromagnetics is the computation of the scattered far fields for large, ...
The simulation of radar cross-section (RCS) models in FPGA is illustrated. The models adopted are th...
The theoretical, analytical, and experimental results are described for radar cross sections (RCS) o...
In this study, a computer code is developed in MATLAB® to compute the Radar Cross Section (RCS) of a...
Radar cross section (RCS) of complex targets can be obtained in real time using the hardware capabil...
Radar cross section (RCS) of complex targets can be obtained in real time using the hardware capabil...
Radar cross section (RCS) of complex targets can be obtained in real time using the hardware capabil...
Abstract-This paper presents a new and original approach for computing the high-frequency radar cros...
A set of algorithms and procedures to compute radar cross section (RCS) of aircraft are presented. T...
An innovative approach to computing the high-frequency radar cross sections (RCSs) of complex radar ...
The results presented at this workshop have been obtained with a new and original approach: hardware...
The significance of Radar Cross Section (RCS) in the military applications makes its prediction an i...
This contribution to the special session in honor of Prof. Rafael Gómez-Martín will address the 30 y...
Radar Cross Section of electrically large platforms which are partially coated with RAM is computed ...
In this study, a MATLAB® code based on the Shooting and Bouncing Ray (SBR) algorithm is developed to...
A significant problem in electromagnetics is the computation of the scattered far fields for large, ...
The simulation of radar cross-section (RCS) models in FPGA is illustrated. The models adopted are th...
The theoretical, analytical, and experimental results are described for radar cross sections (RCS) o...
In this study, a computer code is developed in MATLAB® to compute the Radar Cross Section (RCS) of a...