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适用于任意几何结构平面阵列的无网格DOA估计算法
引用本文:陈涛, 史林, 黄桂根, 汪夕琳. 适用于任意几何结构平面阵列的无网格DOA估计算法[J]. 电子与信息学报, 2022, 44(3): 1052-1058. doi: 10.11999/JEIT210038
作者姓名:陈涛  史林  黄桂根  汪夕琳
作者单位:1.哈尔滨工程大学信息与通信学院 哈尔滨 150001;;2.南京电子技术研究所 南京 210000
摘    要:由于在网格失配情况下依然具备良好的估计性能,无网格DOA估计算法近年来受到了广泛的关注与研究,其中又以基于原子范数最小化(ANM)的DOA估计算法最具代表性。随着可分离ANM(DANM)算法的提出,为ANM理论在2维DOA估计领域中的应用提供了可能。不过传统的DANM算法以及其后续的一系列改进算法都只适用于均匀矩形阵列(URA)或稀疏矩形阵列(SRA),无法适用于具有任意几何结构的平面阵列。针对上述问题,该文提出一种适用于任意几何结构平面阵列的无网格DOA估计算法,即B-DANM算法。该算法利用一类贝塞尔函数对实际平面天线阵列接收信号的协方差数据进行展开,从而获得适用于任意几何结构平面阵列的DANM算法框架,然后再通过求解半定规划问题、Toeplitz矩阵的Vandermonde分解以及估计参数配对、角度变换等过程来得到最终的DOA估计结果。仿真实验验证了,在任意几何结构平面阵列的测向系统中,B-DANM算法相比于传统的2维DOA估计算法在精度、分辨力等方面的优势。

关 键 词:无网格DOA估计算法   原子范数最小化   半定规划   一类贝塞尔函数
收稿时间:2021-01-11
修稿时间:2021-05-30

Gridless DOA Estimation Algorithm for Planar Arrays with Arbitrary Geometry
CHEN Tao, SHI Lin, HUANG Guigen, WANG Xilin. Gridless DOA Estimation Algorithm for Planar Arrays with Arbitrary Geometry[J]. Journal of Electronics & Information Technology, 2022, 44(3): 1052-1058. doi: 10.11999/JEIT210038
Authors:CHEN Tao  SHI Lin  HUANG Guigen  WANG Xilin
Affiliation:1. College of Information and Communication Engineering, Harbin Engineering University, Harbin 150001, China;;2. Nanjing Research Institute of Electronics Technology, Nanjing 210000, China
Abstract:Due to the good estimation performance in the case of off-grid, the gridless DOA estimation algorithms attract extensive attentions and researches in recent years, among which the most representative is the one based on Atomic Norm Minimization (ANM). With the development of Decoupled ANM (DANM) algorithm, the application of ANM to the field of two-dimensional DOA estimation is possible. However, the traditional DANM algorithm and its subsequent improved algorithms are only suitable for Uniform Rectangular Array (URA) or Sparse Rectangular Array (SRA), and is not suitable for planar arrays with arbitrary geometry. In order to solve the above problem, a gridless DOA estimation algorithm, B-DANM algorithm, is proposed for planar arrays with arbitrary geometry. B-DANM algorithm exploits the first Bessel function to expand the covariance data of the received signal of the actual planar antenna array, so as to obtain the DANM algorithm framework suitable for planar arrays with arbitrary geometry, and then the final DOA estimation result is obtained by solving the Semi-Definite Program (SDP) problem, Vandermonde decomposition of Toeplitz matrix, pairing of estimation parameters and angle transformation. The simulation results show that the B-DANM algorithm has the advantages of accuracy and resolution compared with the traditional two-dimensional DOA estimation algorithm in the direction finding system of planar arrays with arbitrary geometry.
Keywords:Gridless DOA estimation algorithm  Atomic Norm Minimization (ANM)  Semi-definite program  The first Bessel function
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