Joint spectrum sensing and direction of arrival recovery from sub-Nyquist samples

2015 IEEE 16th International Workshop on Signal Processing Advances in Wireless Communications (SPAWC) Pub Date : 2015-08-31 DOI:10.1109/SPAWC.2015.7227054

S. Stein, Or Yair, Deborah Cohen, Yonina C. Eldar

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引用次数: 20

Abstract

Joint spectrum sensing and direction of arrival (DOA) estimation is often necessary in communication applications, such as Cognitive Radio (CR). In this paper, we consider joint DOA and carrier frequency recovery of several transmissions as well as signal reconstruction from sub-Nyquist samples to overcome the sampling rate bottleneck of the wideband signals a CR typically deals with. We present two joint DOA and carrier frequency recovery approaches. The first is based on compressed sensing (CS) techniques and the second adapts a 2D-DOA recovery algorithm previously proposed in the Nyquist regime, the Parallel Factor (PARAFAC) analysis algorithm, to our sub-Nyquist samples. This technique allows us to solve the well known pairing issue between the DOA and carrier frequency to be recovered for each transmission. Once these are recovered, we show how the signal itself can be reconstructed from the samples. We also provide sufficient conditions for perfect blind signal recovery in terms of the sampling rate and the number of array elements.

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亚奈奎斯特样品的联合频谱传感和到达方向恢复

在认知无线电(CR)等通信应用中，往往需要联合频谱感知和到达方向(DOA)估计。在本文中，我们考虑了多次传输的联合DOA和载波频率恢复，以及从亚奈奎斯特采样中重建信号，以克服CR通常处理的宽带信号的采样率瓶颈。我们提出了两种联合DOA和载波频率恢复方法。第一种方法是基于压缩感知(CS)技术，第二种方法采用了之前在Nyquist体系中提出的2D-DOA恢复算法，即并行因子(PARAFAC)分析算法，用于我们的亚Nyquist样本。这种技术使我们能够解决每个传输的DOA和要恢复的载波频率之间众所周知的配对问题。一旦这些被恢复，我们将展示如何从样本中重建信号本身。从采样率和阵列元数两方面给出了完全盲信号恢复的充分条件。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2015 IEEE 16th International Workshop on Signal Processing Advances in Wireless Communications (SPAWC)

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