A Robust Beamforming Algorithm for Sparse Array Based on Atomic Norm Minimization

被引：0

作者：

Lü, Yan ^{[1
,2
]}

Cao, Fei ^{[1
]}

Jin, Wei ^{[1
]}

He, Chuan ^{[1
]}

Yang, Jian ^{[3
]}

Zhang, Hui ^{[1
]}

机构：

[1] Nuclear Engineering College, Rocket Force University of Engineering, Shaanxi, Xi'an

[2] Unit 96746 of PLA, Xinjiang, Korla

[3] Missile Engineering College, Rocket Force University of Engineering, Shaanxi, Xi'an

来源：

Binggong Xuebao/Acta Armamentarii | 2024年 / 45卷 / 08期

关键词：

atomic norm minimization; dual problem; robust beamforming; sparse array;

D O I：

10.12382/bgxb.2023.0618

中图分类号：

学科分类号：

摘要：

Aiming at the performance degradation of the beamforming algorithm when some mismatches are present in the signal model. A robust beamforming algorithm based on atomic norm minimization (ANM) is proposed to improve the beamforming performance of sparse array during the mismatch of signal model. The proposed algorithm is used to construct an ANM-based noise reduction model and transform it into an equivalent semi-definite programming problem according to the covariance matrix structure of sparse array. Meanwhile, the dual problem of this model is derived to improve the computational efficiency, and the received data and covariance matrix of the array after noise reduction are obtained. The spatial spectrum is proved to be unambiguous based on the structural properties of a coprime array, and the directions of arrival of the incident signals are obtained directly by using the multiple signal classification algorithm for the resulting covariance matrix. The received data of a uniform linear array with the same aperture as the coprime array is obtained using the virtual filling technique, and the array output is ultimately obtained. Simulated results verify the feasibility and accuracy of the proposed algorithm, which improves the output signal to interference plus noise ratio by at least 1. 5 dB compared to the other tested algorithms. © 2024 China Ordnance Industry Corporation. All rights reserved.

引用

页码：2737 / 2748

页数：11

共 34 条

[1] YANG J, YANG Y X, LIAO B., Robust adaptive Bayesian beamforming against stationary and nonstationary interferences, Signal Processing, 212, (2023)
[2] LIU S H, MAO Z H, ZHANG Y D, Et al., Rank minimization-based Toeplitz reconstruction for DOA estimation using coprime array, IEEE Communications Letters, 25, 7, pp. 2265-2269, (2021)
[3] WANG C Z, ZHU X H, HUANG S M., Coherent receiver design and aperture expansion beamforming for frequency diverse array radar, Digital Signal Processing, 128, (2022)
[4] CAI C, LONG Y S, GHOSH S, Et al., Bayesian adaptive beamformer for robust electromagnetic brain imaging of correlated sources in high spatial resolution, IEEE Transactions on Medical Imaging, 42, 9, pp. 2502-2512, (2023)
[5] ZHANG X Y, JIANG W D, HUO K, Et al., Robust adaptive beamforming based on linearly modified atomic-norm minimization with target contaminated data [ J], IEEE Transactions on Signal Processing, 68, pp. 5138-5151, (2020)
[6] CHENG Y, ZHANG X Y, LIU T P, Et al., Coprime array-adaptive beamforming via atomic-norm-based sparse recovery [ J], IET Radar, Sonar & Navigation, 15, 11, pp. 1494-1507, (2021)
[7] HUANG Y W, ZHOU M K, VOROBYOV S A., New designs on MVDR robust adaptive beamforming based on optimal steering vector estimation, IEEE Transactions on Signal Processing, 67, 14, pp. 3624-3638, (2019)
[8] CHANG L, YEH C C., Performance of DMI and eigenspace-based beamformers [ J ], IEEE Transactions on Antennas and Propagation, 40, 11, pp. 1336-1347, (1992)
[9] VOROBYOV S A, GERSHMAN A B, LUO Z Q., Robust adaptive beamforming using worst-case performance optimization: a solution to the signal mismatch problem, IEEE Transactions on Signal Processing, 51, 2, pp. 313-324, (2003)
[10] XU J W, LIAO G S, ZHU S Q, Et al., Response vector constrained robust LCMV beamforming based on semi-definite programming, IEEE Transactions on Signal Processing, 63, 21, pp. 5720-5732, (2015)

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