Simultaneous reconstruction of dielectric and perfectly conducting scatterers via T-matrix method

Xiuzhu Ye; Xudong Chen; Yu Zhong; Rencheng Song

doi:10.1109/TAP.2013.2258878

Simultaneous reconstruction of dielectric and perfectly conducting scatterers via T-matrix method

Xiuzhu Ye, Xudong Chen, Yu Zhong, Rencheng Song

National University of Singapore

Research output: Contribution to journal › Article › peer-review

17 Citations (Scopus)

Abstract

A T-matrix method is proposed to solve the mixed boundary inverse scattering problem, i.e., perfect electric conductors (PEC) and dielectric scatterers are simultaneously reconstructed under the two-dimensional transverse magnetic (TM) illumination setting. Both the dipole and monopole elements of the T-matrix are chosen to accurately describe the scattering behavior of the mixed boundary problem. Criteria of utilizing the monopole element of T -matrix to distinguish the PEC from dielectric scatterers are presented. Apart from synthetic data, the experimental data from Fresnel dataset is also used to verify the validity of the proposed method, showing that it works well in sub-wavelength setting and is quite robust against noise. The pros and cons of the proposed T -matrix method are further discussed.

Original language	English
Article number	6504729
Pages (from-to)	3774-3781
Number of pages	8
Journal	IEEE Transactions on Antennas and Propagation
Volume	61
Issue number	7
DOIs	https://doi.org/10.1109/TAP.2013.2258878
Publication status	Published - 2013
Externally published	Yes

Keywords

T-matrix
inverse scattering
optimization

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10.1109/TAP.2013.2258878

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abstract = "A T-matrix method is proposed to solve the mixed boundary inverse scattering problem, i.e., perfect electric conductors (PEC) and dielectric scatterers are simultaneously reconstructed under the two-dimensional transverse magnetic (TM) illumination setting. Both the dipole and monopole elements of the T-matrix are chosen to accurately describe the scattering behavior of the mixed boundary problem. Criteria of utilizing the monopole element of T -matrix to distinguish the PEC from dielectric scatterers are presented. Apart from synthetic data, the experimental data from Fresnel dataset is also used to verify the validity of the proposed method, showing that it works well in sub-wavelength setting and is quite robust against noise. The pros and cons of the proposed T -matrix method are further discussed.",

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T1 - Simultaneous reconstruction of dielectric and perfectly conducting scatterers via T-matrix method

AU - Ye, Xiuzhu

AU - Chen, Xudong

AU - Zhong, Yu

AU - Song, Rencheng

PY - 2013

Y1 - 2013

N2 - A T-matrix method is proposed to solve the mixed boundary inverse scattering problem, i.e., perfect electric conductors (PEC) and dielectric scatterers are simultaneously reconstructed under the two-dimensional transverse magnetic (TM) illumination setting. Both the dipole and monopole elements of the T-matrix are chosen to accurately describe the scattering behavior of the mixed boundary problem. Criteria of utilizing the monopole element of T -matrix to distinguish the PEC from dielectric scatterers are presented. Apart from synthetic data, the experimental data from Fresnel dataset is also used to verify the validity of the proposed method, showing that it works well in sub-wavelength setting and is quite robust against noise. The pros and cons of the proposed T -matrix method are further discussed.

AB - A T-matrix method is proposed to solve the mixed boundary inverse scattering problem, i.e., perfect electric conductors (PEC) and dielectric scatterers are simultaneously reconstructed under the two-dimensional transverse magnetic (TM) illumination setting. Both the dipole and monopole elements of the T-matrix are chosen to accurately describe the scattering behavior of the mixed boundary problem. Criteria of utilizing the monopole element of T -matrix to distinguish the PEC from dielectric scatterers are presented. Apart from synthetic data, the experimental data from Fresnel dataset is also used to verify the validity of the proposed method, showing that it works well in sub-wavelength setting and is quite robust against noise. The pros and cons of the proposed T -matrix method are further discussed.

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KW - inverse scattering

KW - optimization

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JF - IEEE Transactions on Antennas and Propagation

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Simultaneous reconstruction of dielectric and perfectly conducting scatterers via T-matrix method

Abstract

Keywords

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