An off-grid direction-of-arrival estimator based on sparse Bayesian learning with three-stage hierarchical Laplace priors

被引：3

作者：

Li, Ninghui ^{[1
]}

Zhang, Xiao-Kuan ^{[2
]}

Zong, Binfeng ^{[2
]}

Lv, Fan ^{[1
]}

Xu, JiaHua ^{[1
]}

Wang, Zhaolong ^{[1
]}

机构：

[1] Air Force Engn Univ, Grad Sch, Xian 710051, Peoples R China

[2] Air Force Engn Univ, Air Def & Missile Def, Xian 710051, Peoples R China

来源：

SIGNAL PROCESSING | 2024年 / 218卷

关键词：

Direction-of-arrival estimation; Sparse Bayesian learning; Hierarchical priors; Minimum hole array; Grid mismatch; DOA ESTIMATION; NESTED ARRAYS; RECONSTRUCTION;

D O I：

10.1016/j.sigpro.2023.109371

中图分类号：

TM [电工技术]; TN [电子技术、通信技术];

学科分类号：

0808 ; 0809 ;

摘要：

For direction-of-arrival (DOA) estimation problems, sparse Bayesian learning (SBL) has achieved excellent estimation performance, especially in sparse arrays. However, numerous SBL-based methods with hyper parameters assigned to Gaussian priors cannot enhance sparsity well, and mainly focus on the nested array (NA) or the co-prime array (CPA) that cause relatively large degree of freedom (DOF) losses. Based on this, we propose a novel method with a Bayesian framework containing three-stage hierarchical Laplace priors that significantly promote sparsity. Moreover, the proposed method is based on the minimum hole array (MHA) that retains a larger array aperture than NA or CPA after redundancy removal, which is required and achieved simultaneously by a denoising operation. In addition, to correct the intractable off-grid model errors caused by grid mismatch, a new refinement operation is developed. And, the refinement empirically outperforms others based on Taylor expansion. Extensive simulations are presented to confirm the superiority of the proposed method beyond stateof-the-art methods.

引用

页数：13

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