Sensor Localization for Highly Deformed Partially Calibrated Arrays with Moving Targets

Long Yang; Yixin Yang; Guisheng Liao

doi:10.1109/LSP.2018.2890764

Sensor Localization for Highly Deformed Partially Calibrated Arrays with Moving Targets

Long Yang, Yixin Yang, Guisheng Liao

School of Marine Science and Technology

Xidian University

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

5 Scopus citations

Abstract

In this letter, a sensor localization technique for highly deformed partially calibrated arrays with multiple moving targets is proposed. The deformed array is divided into several subarrays. The first subarray is composed of the pre-calibrated sensors, whereas the sensors in the other subarrays are uncalibrated. The positions of the sensors are estimated from the phase differences between the pre-calibrated sensors and the uncalibrated sensors. The phase ambiguities caused by the highly deformed sensor positions can be solved using the subspace orthogonality and the movement of multiple targets. Simulation results evaluate the performance of the proposed method, and the Cramer-Rao bounds are compared.

Original language	English
Article number	8600395
Pages (from-to)	372-376
Number of pages	5
Journal	IEEE Signal Processing Letters
Volume	26
Issue number	2
DOIs	https://doi.org/10.1109/LSP.2018.2890764
State	Published - Feb 2019

Keywords

highly-deformed sensor array
partially calibrated sensor array
phase ambiguity
Sensor localization

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10.1109/LSP.2018.2890764

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title = "Sensor Localization for Highly Deformed Partially Calibrated Arrays with Moving Targets",

abstract = "In this letter, a sensor localization technique for highly deformed partially calibrated arrays with multiple moving targets is proposed. The deformed array is divided into several subarrays. The first subarray is composed of the pre-calibrated sensors, whereas the sensors in the other subarrays are uncalibrated. The positions of the sensors are estimated from the phase differences between the pre-calibrated sensors and the uncalibrated sensors. The phase ambiguities caused by the highly deformed sensor positions can be solved using the subspace orthogonality and the movement of multiple targets. Simulation results evaluate the performance of the proposed method, and the Cramer-Rao bounds are compared.",

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author = "Long Yang and Yixin Yang and Guisheng Liao",

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AU - Yang, Yixin

AU - Liao, Guisheng

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N2 - In this letter, a sensor localization technique for highly deformed partially calibrated arrays with multiple moving targets is proposed. The deformed array is divided into several subarrays. The first subarray is composed of the pre-calibrated sensors, whereas the sensors in the other subarrays are uncalibrated. The positions of the sensors are estimated from the phase differences between the pre-calibrated sensors and the uncalibrated sensors. The phase ambiguities caused by the highly deformed sensor positions can be solved using the subspace orthogonality and the movement of multiple targets. Simulation results evaluate the performance of the proposed method, and the Cramer-Rao bounds are compared.

AB - In this letter, a sensor localization technique for highly deformed partially calibrated arrays with multiple moving targets is proposed. The deformed array is divided into several subarrays. The first subarray is composed of the pre-calibrated sensors, whereas the sensors in the other subarrays are uncalibrated. The positions of the sensors are estimated from the phase differences between the pre-calibrated sensors and the uncalibrated sensors. The phase ambiguities caused by the highly deformed sensor positions can be solved using the subspace orthogonality and the movement of multiple targets. Simulation results evaluate the performance of the proposed method, and the Cramer-Rao bounds are compared.

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KW - partially calibrated sensor array

KW - phase ambiguity

KW - Sensor localization

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JO - IEEE Signal Processing Letters

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ER -

Sensor Localization for Highly Deformed Partially Calibrated Arrays with Moving Targets

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Keywords

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