Cataloged from PDF version of thesis.Includes bibliographical references (leaves 56-60).Thesis (M.S.): Bilkent University, Department of Electrical and Electronics Engineering, İhsan Doğramacı Bilkent University, 2014.We developed a method that incorporates an algebraic compression technique to accelerate the computation of multiple monostatic radar cross sections (RCSs) of arbitrary 3-D geometries. Since most radars rely on the backscattering from a target, computing the monostatic RCS (MRCS) is needed more often than the bistatic RCS. Computation of each MRCS value requires a separate solution, which may be costly depending on the size of the problem. The task becomes considerably harder when the goal is to compute multiple MRCS val...
The Method of Moments is a numerical technique for solving electromagnetic problems with integral eq...
Fourier-based methods for monostatic and bistatic setups have been widely used for high-accuracy rad...
We present a sparse preconditioner for efficient iterative solution of large dense linear systems th...
We present an algebraic compression technique to accelerate the computation of multiple monostatic r...
In this paper, a new CS-FMM method that conjugates compressive sensing (CS) with the fast multipole ...
We describe a high-order method for computing the monostatic and bistatic radar cross section (RCS) ...
This paper addresses the direct (noniterative) solution of the method-of-moments (MoM) linear system...
© The Institution of Engineering and Technology 2017. Previous research on the characteristic basis ...
A hybrid compressive approach for fast computation of the electromagnetic scattering problems with m...
Previous research on the characteristic basis function method (CBFM) has shown that the use of the u...
This paper presents a modification of the adaptive cross approximation (ACA) algorithm for accelerat...
Abstract The traditional four‐channel monopulse two‐target resolution algorithm can only apply to ph...
Applications such as radar performance prediction and automatic target recognition (ATR) require a c...
AbstractTaking into account the influences of scatterer geometrical shapes on induced currents, an a...
International audienceThis paper presents a numerical compression of Iterative Physical Optics (IPO)...
The Method of Moments is a numerical technique for solving electromagnetic problems with integral eq...
Fourier-based methods for monostatic and bistatic setups have been widely used for high-accuracy rad...
We present a sparse preconditioner for efficient iterative solution of large dense linear systems th...
We present an algebraic compression technique to accelerate the computation of multiple monostatic r...
In this paper, a new CS-FMM method that conjugates compressive sensing (CS) with the fast multipole ...
We describe a high-order method for computing the monostatic and bistatic radar cross section (RCS) ...
This paper addresses the direct (noniterative) solution of the method-of-moments (MoM) linear system...
© The Institution of Engineering and Technology 2017. Previous research on the characteristic basis ...
A hybrid compressive approach for fast computation of the electromagnetic scattering problems with m...
Previous research on the characteristic basis function method (CBFM) has shown that the use of the u...
This paper presents a modification of the adaptive cross approximation (ACA) algorithm for accelerat...
Abstract The traditional four‐channel monopulse two‐target resolution algorithm can only apply to ph...
Applications such as radar performance prediction and automatic target recognition (ATR) require a c...
AbstractTaking into account the influences of scatterer geometrical shapes on induced currents, an a...
International audienceThis paper presents a numerical compression of Iterative Physical Optics (IPO)...
The Method of Moments is a numerical technique for solving electromagnetic problems with integral eq...
Fourier-based methods for monostatic and bistatic setups have been widely used for high-accuracy rad...
We present a sparse preconditioner for efficient iterative solution of large dense linear systems th...