Direction Finding for Bistatic MIMO Radar Using a Sparse Moving Array With Sensor Position Errors

Shuai Luo; Yuexian Wang; Ling Wang; Jianying Li

doi:10.1109/LWC.2022.3184114

Direction Finding for Bistatic MIMO Radar Using a Sparse Moving Array With Sensor Position Errors

Shuai Luo, Yuexian Wang, Ling Wang, Jianying Li

School of Electronics and Information

Northwestern Polytechnical University Xian

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

10 Scopus citations

Abstract

In this letter, synthetic aperture technology is applied to bistatic multiple-input multiple-output (MIMO) radar, where sensor position errors caused by sparse array motion are considered. We first set signals emitted by the transmit array to be periodic, and the receive array moves at a certain speed to perform synthetic aperture processing, which can increase the degrees of freedom and expand the visual array aperture for the radar. On this basis, we consider sensor position errors caused by array motion and propose a new self-calibration algorithm to obtain accurate angle estimates. The proposed algorithm can still approach the ideal situation well in the presence of sensor position errors. Simulation results verify the effectiveness and reliability of the proposed algorithm.

Original language	English
Pages (from-to)	1840-1844
Number of pages	5
Journal	IEEE Wireless Communications Letters
Volume	11
Issue number	9
DOIs	https://doi.org/10.1109/LWC.2022.3184114
State	Published - 1 Sep 2022

Keywords

array motion
Bistatic MIMO radar
self-calibration
sensor position errors

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10.1109/LWC.2022.3184114

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title = "Direction Finding for Bistatic MIMO Radar Using a Sparse Moving Array With Sensor Position Errors",

abstract = "In this letter, synthetic aperture technology is applied to bistatic multiple-input multiple-output (MIMO) radar, where sensor position errors caused by sparse array motion are considered. We first set signals emitted by the transmit array to be periodic, and the receive array moves at a certain speed to perform synthetic aperture processing, which can increase the degrees of freedom and expand the visual array aperture for the radar. On this basis, we consider sensor position errors caused by array motion and propose a new self-calibration algorithm to obtain accurate angle estimates. The proposed algorithm can still approach the ideal situation well in the presence of sensor position errors. Simulation results verify the effectiveness and reliability of the proposed algorithm.",

keywords = "array motion, Bistatic MIMO radar, self-calibration, sensor position errors",

author = "Shuai Luo and Yuexian Wang and Ling Wang and Jianying Li",

note = "Publisher Copyright: {\textcopyright} 2012 IEEE.",

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T1 - Direction Finding for Bistatic MIMO Radar Using a Sparse Moving Array With Sensor Position Errors

AU - Luo, Shuai

AU - Wang, Yuexian

AU - Wang, Ling

AU - Li, Jianying

PY - 2022/9/1

Y1 - 2022/9/1

N2 - In this letter, synthetic aperture technology is applied to bistatic multiple-input multiple-output (MIMO) radar, where sensor position errors caused by sparse array motion are considered. We first set signals emitted by the transmit array to be periodic, and the receive array moves at a certain speed to perform synthetic aperture processing, which can increase the degrees of freedom and expand the visual array aperture for the radar. On this basis, we consider sensor position errors caused by array motion and propose a new self-calibration algorithm to obtain accurate angle estimates. The proposed algorithm can still approach the ideal situation well in the presence of sensor position errors. Simulation results verify the effectiveness and reliability of the proposed algorithm.

AB - In this letter, synthetic aperture technology is applied to bistatic multiple-input multiple-output (MIMO) radar, where sensor position errors caused by sparse array motion are considered. We first set signals emitted by the transmit array to be periodic, and the receive array moves at a certain speed to perform synthetic aperture processing, which can increase the degrees of freedom and expand the visual array aperture for the radar. On this basis, we consider sensor position errors caused by array motion and propose a new self-calibration algorithm to obtain accurate angle estimates. The proposed algorithm can still approach the ideal situation well in the presence of sensor position errors. Simulation results verify the effectiveness and reliability of the proposed algorithm.

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KW - Bistatic MIMO radar

KW - self-calibration

KW - sensor position errors

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JO - IEEE Wireless Communications Letters

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ER -

Direction Finding for Bistatic MIMO Radar Using a Sparse Moving Array With Sensor Position Errors

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