Joint Carrier and 2D-DOA Estimation for L-Shaped Array Based on Sub-Nyquist Sampling

Siyi Jiang, Ning Fu, Zhiliang Wei, Liyan Qiao, Xiyuan Peng
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引用次数: 3

Abstract

The joint carrier frequency and two-dimensional direction of arrival (2D-DOA) estimation is a significant problem for radar and communication systems. With the development of information technology, the spectrum of signal is wider and wider, but the effective occupied bandwidth is narrower. The traditional sampling methods based on Shannon-Nyquist theorem bring great pressure to sampling and storage devices. In this paper, a new joint carrier frequencies and 2D-DOAs estimation method is proposed. The transmissions received and sampled by a L-shape delay arrays architecture based on modulated wideband convertor (MWC) system. The estimation algorithm is based on the CANDECOMP/PARAFAC (CP) decomposition method, no additional parameter pairing steps are required. Simulation results verify that the proposed method can estimate the carrier frequencies and 2D-DOAs from sub-Nyquist samples.
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基于子奈奎斯特采样的l形阵列联合载波和二维doa估计
联合载波频率和二维到达方向(2D-DOA)估计是雷达和通信系统的重要问题。随着信息技术的发展,信号的频谱越来越宽,但有效占用的带宽却越来越窄。传统的基于Shannon-Nyquist定理的采样方法给采样和存储设备带来了很大的压力。本文提出了一种新的联合载波频率和2D-DOAs估计方法。采用基于调制宽带变换器(MWC)系统的l形延迟阵列结构对传输信号进行接收和采样。估计算法基于CANDECOMP/PARAFAC (CP)分解方法,不需要额外的参数配对步骤。仿真结果验证了该方法可以从sub-Nyquist样本中估计载波频率和2d - doa。
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