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On the Inverse Problem of Scattering from a Perfectly Conducting Elliptic Cylinder

Vandenberghe, F. H. ; Boerner, W. M.

Canadian Science Publishing ; 1972

In: Canadian Journal of Physics Vol. 50, No. 17 ( 1972-09-01), p. 1987-1992

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In: Canadian Journal of Physics, Canadian Science Publishing, Vol. 50, No. 17 ( 1972-09-01), p. 1987-1992

Abstract: The inverse problem of electromagnetic scattering from a perfectly conducting elliptic cylinder for the low-frequency case is considered. The approach is based on the model technique presented in Boerner and Vandenberghe, conjecturing that the salient features of the scatterer can be determined from the far scattered field via matrix inversion. This follows the low-frequency formulation of the scattered field as given by Udagawa and Miyazaki rather than from an expansion in the elliptic cylindrical wave functions. It is then shown that the characteristic parameters of the ellipse, i.e. the principal axes a′ and b′ and the numerical eccentricity ε, can be directly recovered from the expansion coefficients associated with circular cylindrical wave functions, as is presented in Udagawa and Miyazaki.

Type of Medium: Online Resource

ISSN: 0008-4204 , 1208-6045

URL: Article

DOI: 10.1139/p72-265

Language: English

Publisher: Canadian Science Publishing

Publication Date: 1972

detail.hit.zdb_id: 2021497-2

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Determination of the Electrical Radius ka of a Circular Cylindrical Scatterer from the Scattered Field

Boerner, W. M. ; Vandenberghe, F. H. ; Hamid, M. A. K.

Canadian Science Publishing ; 1971

In: Canadian Journal of Physics Vol. 49, No. 7 ( 1971-04-01), p. 804-819

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In: Canadian Journal of Physics, Canadian Science Publishing, Vol. 49, No. 7 ( 1971-04-01), p. 804-819

Abstract: The inverse problem of scattering for a circular cylindrical scattering geometry is considered. The transverse far field components are related to the Fourier coefficients of the circular cylindrical wave expansion in terms of the scattered field matrix. The associated determinant which describes the scattering geometry is formulated in closed form. To achieve nonsingular matrix inversion, a novel, determinate optimization procedure for the measurement aspect angles is derived and proved. Measurement techniques or experimental results are not presented. Yet, it is shown analytically that the unknown expansion coefficients can be recovered with standard double precision matrix inversion techniques to the degree of accuracy dictated only by any suitable measurement technique. Assuming the required set of expansion coefficients {a n } TM and/or {b n } TE is found, it is shown that the electrical radius ka of the scatterer can be determined from four contiguous expansion coefficients in the TM as well as the mixed TM–TE cases. Only the TE case is an exception for which a more elaborate formulation exists. The relationships between contiguous expansion coefficients of both electric and magnetic type are relevant to the general cylindrical inverse problem, since the electrical radius can be directly recovered from the scattered field data. Furthermore, the scattered field can be uniquely expressed in terms of only one set of expansion coefficients associated with either the electric or magnetic vector wave functions.

Type of Medium: Online Resource

ISSN: 0008-4204 , 1208-6045

URL: Article

DOI: 10.1139/p71-095

Language: English

Publisher: Canadian Science Publishing

Publication Date: 1971

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Determination of the Electrical Radius ka of a Spherical Scatterer from the Scattered Field

Boerner, W. M. ; Vandenberghe, F. H.

Canadian Science Publishing ; 1971

In: Canadian Journal of Physics Vol. 49, No. 11 ( 1971-06-01), p. 1507-1535

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In: Canadian Journal of Physics, Canadian Science Publishing, Vol. 49, No. 11 ( 1971-06-01), p. 1507-1535

Abstract: The inverse problem of scattering for a spherical vector scattering geometry is considered. The transverse scattered field components are related to the expansion coefficients of Hansen's vector wave expansion in terms of the scattered field matrix. This matrix needs to be inverted to obtain the unknown expansion coefficients which are required to recover the shape of the target in question. Since the particular properties of the spherical vector wave expansion may cause highly instable matrix inversion, an analytical, closed form solution of the determinant associated with the scattered field matrix was sought. For vector scattering geometries representing the mth degree multipole cases such closed form solutions for the associated determinant of truncated order 2N are derived, using a novel complementary series expansion for the employed forms of the associated Legendre's functions of the first kind. A novel determinate optimization procedure is presented which enables the specification of the optimal distribution of measurement aspect angles within any given finite measurement cone of the unit sphere of directions. The closed form solution for nonsymmetrical vector scattering geometries is presented in Appendix III only for the value N = 3 (m = 0 and 1) employing properties of quadratic forms as derived in Appendix II. It is then shown that the electrical radius ka of a perfectly conducting spherical scatterer can be directly recovered from a finite number of contiguous expansion coefficients similar to the cylindrical case presented in Boerner, Vandenberghe, and Hamid. Furthermore, relationships between contiguous expansion coefficients of both electric and magnetic type result, which are relevant to the general inverse problem since the scattered field can be uniquely expressed in terms of only one set of expansion coefficients associated with either the electric or magnetic vector wave functions.

Type of Medium: Online Resource

ISSN: 0008-4204 , 1208-6045

URL: Article

DOI: 10.1139/p71-178

Language: English

Publisher: Canadian Science Publishing

Publication Date: 1971

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On the Inverse Problem of Scattering from a Perfectly Conducting Prolate Spheroid

Vandenberghe, F. H. ; Boerner, W. M.

Canadian Science Publishing ; 1972

In: Canadian Journal of Physics Vol. 50, No. 8 ( 1972-04-15), p. 754-759

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In: Canadian Journal of Physics, Canadian Science Publishing, Vol. 50, No. 8 ( 1972-04-15), p. 754-759

Abstract: The inverse problem of electromagnetic scattering from a prolate spheroidal scatterer is considered. The approach is based on the model technique presented in Boerner and Vandenberghe, conjecturing that the salient features of the scatterer can be determined from the far scattered field via matrix inversion. An expansion in spherical wave functions for the scattered field based on the formulation of Senior is employed instead of an expansion in prolate spheroidal wave functions. It is then shown that the characteristic parameters of the ellipse generating the prolate spheroid (the interfocal distance d and the eccentricity ε) can be directly recovered from Senior's expansion coefficients.

Type of Medium: Online Resource

ISSN: 0008-4204 , 1208-6045

URL: Article

DOI: 10.1139/p72-107

Language: English

Publisher: Canadian Science Publishing

Publication Date: 1972

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