Add to ORKGBased on the solutions of physical optics (PO) and physical optics of diffraction (PTD), we propose a modified parametric scattering center model for high precise signal simulations of extended targets. Different from geometrical theory of diffraction (GTD), which is commonly used in the existing models, the solution of PTD represents the individual scattering contribution of edge diffraction, and can precisely describe the scattering field under full observation angles and polarizations. This model has higher precision than the existing ones, especially for the targets with dominant scattering centers induced by diffraction. And this model is physical where the parameters are related with geometry of the targets. To validate this model, fo...
Part 1 of this report continues the investigation, initiated in previous reports, of scattering from...
The use of Physical Optics (PO) for computations of scattering phenomena has reduced the use of the ...
Target scattering or reflection is used by radar systems to identify and detect targets. The larger ...
Based on the solutions of physical optics (PO) and physical optics of diffraction (PTD), we propose ...
In this study, a computer code is developed in MATLAB® to compute the Radar Cross Section (RCS) of a...
The method of physical optics (PO) is a powerful algorithm for calculation of scattering and radiati...
The analysis of the backscatter cross section of a dihedral corner reflector, using Geometrical Theo...
Many radar applications, such as system design and testing and target detection and recognition, nee...
This work investigates the use of high frequency electromagnetic scattering techniques, such as the ...
Based on induced currents of cone-shaped targets, the high precise scattering center model is derive...
Formulations for scattering from the coated plate and the coated dihedral corner reflector are inclu...
The principal-plane scattering from perfectly conducting and coated strips and rectangular plates is...
In order to treat high-frequency scattering from large and complex objects, numerous asymptotic simu...
Besides classical applications (radar and stealth, antennas, microwave engineering), scattering and ...
MasterRecently, radar cross section (RCS) analysis using the target's scattering centers is widely i...
Part 1 of this report continues the investigation, initiated in previous reports, of scattering from...
The use of Physical Optics (PO) for computations of scattering phenomena has reduced the use of the ...
Target scattering or reflection is used by radar systems to identify and detect targets. The larger ...
Based on the solutions of physical optics (PO) and physical optics of diffraction (PTD), we propose ...
In this study, a computer code is developed in MATLAB® to compute the Radar Cross Section (RCS) of a...
The method of physical optics (PO) is a powerful algorithm for calculation of scattering and radiati...
The analysis of the backscatter cross section of a dihedral corner reflector, using Geometrical Theo...
Many radar applications, such as system design and testing and target detection and recognition, nee...
This work investigates the use of high frequency electromagnetic scattering techniques, such as the ...
Based on induced currents of cone-shaped targets, the high precise scattering center model is derive...
Formulations for scattering from the coated plate and the coated dihedral corner reflector are inclu...
The principal-plane scattering from perfectly conducting and coated strips and rectangular plates is...
In order to treat high-frequency scattering from large and complex objects, numerous asymptotic simu...
Besides classical applications (radar and stealth, antennas, microwave engineering), scattering and ...
MasterRecently, radar cross section (RCS) analysis using the target's scattering centers is widely i...
Part 1 of this report continues the investigation, initiated in previous reports, of scattering from...
The use of Physical Optics (PO) for computations of scattering phenomena has reduced the use of the ...
Target scattering or reflection is used by radar systems to identify and detect targets. The larger ...