Journal ArticleDOI
Asymptotic and hybrid techniques for electromagnetic scattering
Daniel Bouche,F.A. Molinet,Raj Mittra +2 more
- Vol. 81, Iss: 12, pp 1658-1684
TLDR
In this article, the authors present an overview of a number of asymptotic and hybrid methods used to compute the radar cross section of objects that are large compared to the wavelength of the incident wave, and the effect of coating perfectly conducting bodies with dielectric materials.Abstract:
Asymptotic and hybrid methods are widely used to compute the Radar Cross Section (RCS) of objects that are large compared to the wavelength of the incident wave, and the objective of this paper is to present an overview of a number of these methods. The cornerstone of the asymptotic methods is the Geometrical Theory of Diffraction (GTD), which was originally introduced by J. B. Keller, and which represents a generalization of the classical Geometrical Optics (GO) by virtue of the inclusion of diffraction phenomena. After a presentation of the physical principles of GTD, we provide a description of its mathematical foundations. In the process of doing this we point out that GTD gives inaccurate results at caustics and light-shadow boundaries, and subsequently present a number of alternate approaches to dealing with these problems, viz., Uniform theories; Methods for caustics curves; Physical Theory of Diffraction; and Spectral Theory of Diffraction. The effect of coating perfectly conducting bodies with dielectric materials is discussed and hybrid methods, that combine the Method of Moments (MoM) with asymptotic techniques, are briefly reviewed. Finally, the application of GTD and related techniques is illustrated by considering some representative radar targets of practical interest. >read more
Citations
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Journal ArticleDOI
Improved PO-MM hybrid formulation for scattering from three-dimensional perfectly conducting bodies of arbitrary shape
U. Jakobus,Friedrich Landstorfer +1 more
TL;DR: In this article, a current-based hybrid method combining the method of moments (MM) with the physical optics (PO) approximation for 3D perfectly conducting bodies is proposed, which allows a substantial reduction of computation time and memory requirement.
Journal ArticleDOI
An iterative current-based hybrid method for complex structures
R.E. Hodges,Yahya Rahmat-Samii +1 more
TL;DR: In this article, a general unified hybrid method for radiation and scattering problems such as antennas mounted on a large platform is presented, referred to as the hybrid EFIE-MFIE (HEM), in which the EFIE and MFIE are applied to geometrically distinct regions of an object.
Journal ArticleDOI
Improvement of the PO-MoM hybrid method by accounting for effects of perfectly conducting wedges
U. Jakobus,Friedrich Landstorfer +1 more
TL;DR: In this paper, a correction of the conventional physical optics (PO) current close-to-perfectly conducting wedges based on an application of the uniform geometrical theory of diffraction (UTD) is presented.
Journal ArticleDOI
A hybrid FEBI-MLFMM-UTD method for numerical solutions of electromagnetic problems including arbitrarily shaped and electrically large objects
A. Tzoulis,Thomas F. Eibert +1 more
TL;DR: A ray-based hybridization of the MLFMM with the uniform geometrical theory of diffraction (UTD) is proposed within a hybrid finite element-boundary integral (FEBI) technique, using the combined field integral equation (CFIE), resulting into a hybrid FEBI-MLFMM-UTD method.
Journal ArticleDOI
Higher order hybrid method of moments-physical optics modeling technique for radiation and scattering from large perfectly conducting surfaces
TL;DR: The PO part of the proposed technique allows for a dramatic reduction in the computation time and memory with respect to the pure MoM higher order technique, which greatly extends the practicality of the higher order MoM with a smooth transition between low- and high-frequency applications.
References
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Book
Time-harmonic electromagnetic fields
TL;DR: In this paper, a revised version of the Revised edition of the book has been published, with a new introduction to the concept of plane wave functions and spherical wave functions, as well as a detailed discussion of the properties of these functions.
Journal ArticleDOI
Geometrical Theory of Diffraction
TL;DR: The mathematical justification of the theory on the basis of electromagnetic theory is described, and the applicability of this theory, or a modification of it, to other branches of physics is explained.
Journal ArticleDOI
A uniform geometrical theory of diffraction for an edge in a perfectly conducting surface
R.G. Kouyoumjian,P.H. Pathak +1 more
TL;DR: In this article, a compact dyadic diffraction coefficient for electromagnetic waves obliquely incident on a curved edse formed by perfectly conducting curved plane surfaces is obtained, which is based on Keller's method of the canonical problem, which in this case is the perfectly conducting wedge illuminated by cylindrical, conical, and spherical waves.
Book
Introduction to the Uniform Geometrical Theory of Diffraction
TL;DR: A text for senior undergraduate or beginning graduate students, as well as practicing engineers, that bridges the gap between specialist papers and the use of GTD in practical problems is presented in this paper.
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