Parameter Estimation of Coexisted Circular and Strictly Noncircular Sources Using Diversely Polarized Antennas

Yaxing Yue; Yougen Xu; Zhiwen Liu; Lei Shen

doi:10.1109/LCOMM.2018.2849402

Parameter Estimation of Coexisted Circular and Strictly Noncircular Sources Using Diversely Polarized Antennas

Yaxing Yue, Yougen Xu^*, Zhiwen Liu, Lei Shen

^*Corresponding author for this work

School of Integrated Circuits and Electronics

Beijing Institute of Technology

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

16 Citations (Scopus)

Abstract

The problem of closed-form parameter estimation using a diversely polarized antenna array of arbitrary configurations is considered, under the coexistence of the circular and strictly noncircular signals used in the communication/radar systems. By incorporating the noncircularity difference and polarization diversity of the signals with the augmented polarimetric manifold decoupling, the conventional polynomial rooting polarimetric element space subspace technique is enhanced for direction-of-arrival, polarization, and noncircularity phase (for strictly noncircular sources) estimation. A subspace constraint method is also presented to improve parameter estimation of the strictly noncircular sources. Simulation results are included to illustrate the performance of the proposed methods.

Original language	English
Article number	8392439
Pages (from-to)	1822-1825
Number of pages	4
Journal	IEEE Communications Letters
Volume	22
Issue number	9
DOIs	https://doi.org/10.1109/LCOMM.2018.2849402
Publication status	Published - Sept 2018

Keywords

Direction of arrival estimation
circular
noncircular
polarization
polynomial rooting

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10.1109/LCOMM.2018.2849402

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title = "Parameter Estimation of Coexisted Circular and Strictly Noncircular Sources Using Diversely Polarized Antennas",

abstract = "The problem of closed-form parameter estimation using a diversely polarized antenna array of arbitrary configurations is considered, under the coexistence of the circular and strictly noncircular signals used in the communication/radar systems. By incorporating the noncircularity difference and polarization diversity of the signals with the augmented polarimetric manifold decoupling, the conventional polynomial rooting polarimetric element space subspace technique is enhanced for direction-of-arrival, polarization, and noncircularity phase (for strictly noncircular sources) estimation. A subspace constraint method is also presented to improve parameter estimation of the strictly noncircular sources. Simulation results are included to illustrate the performance of the proposed methods.",

keywords = "Direction of arrival estimation, circular, noncircular, polarization, polynomial rooting",

author = "Yaxing Yue and Yougen Xu and Zhiwen Liu and Lei Shen",

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AU - Xu, Yougen

AU - Liu, Zhiwen

AU - Shen, Lei

PY - 2018/9

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N2 - The problem of closed-form parameter estimation using a diversely polarized antenna array of arbitrary configurations is considered, under the coexistence of the circular and strictly noncircular signals used in the communication/radar systems. By incorporating the noncircularity difference and polarization diversity of the signals with the augmented polarimetric manifold decoupling, the conventional polynomial rooting polarimetric element space subspace technique is enhanced for direction-of-arrival, polarization, and noncircularity phase (for strictly noncircular sources) estimation. A subspace constraint method is also presented to improve parameter estimation of the strictly noncircular sources. Simulation results are included to illustrate the performance of the proposed methods.

AB - The problem of closed-form parameter estimation using a diversely polarized antenna array of arbitrary configurations is considered, under the coexistence of the circular and strictly noncircular signals used in the communication/radar systems. By incorporating the noncircularity difference and polarization diversity of the signals with the augmented polarimetric manifold decoupling, the conventional polynomial rooting polarimetric element space subspace technique is enhanced for direction-of-arrival, polarization, and noncircularity phase (for strictly noncircular sources) estimation. A subspace constraint method is also presented to improve parameter estimation of the strictly noncircular sources. Simulation results are included to illustrate the performance of the proposed methods.

KW - Direction of arrival estimation

KW - circular

KW - noncircular

KW - polarization

KW - polynomial rooting

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JF - IEEE Communications Letters

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ER -

Parameter Estimation of Coexisted Circular and Strictly Noncircular Sources Using Diversely Polarized Antennas

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Keywords

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