Paper Info
Title
Compressive Subspace Learning Based Wideband Spectrum Sensing for Multiantenna Cognitive Radio
Abstract
Recently, sub-Nyquist sampling (SNS) based wideband spectrum sensing has emerged as a promising approach for cognitive radios. However, most of existing SNS-based approaches cannot effectively deal with the wireless channel fading due to the lack of space diversity exploitation, which would lead to poor sensing performance. To address the problem, we propose a multiantenna system, referred to as the multiantenna generalized modulated converter (MAGMC), to realize the SNS, where spatially correlated multiple-input multiple-output (MIMO) channel is considered. Based on the multiantenna system, two compressive subspace learning (CSL) approaches (mCSL and vCSL) are proposed for signal subspace learning, where wideband sectrum sensing is realized based on the signal subspace. Both proposed CSL approaches exploit space diversity, where the mCSL utilizes an antenna averaging temporal decomposition, and the vCSL (which is formulated based on a vectorization of sample matrix in the mCSL) uses a spatial-temporal joint decomposition. We further establish analytical relationships between eigenvalues of statistical covariance matrices in statistical sense in both multiantenna and single antenna scenarios. Space diversity and superiority over the single antenna scenario for both proposed CSL approaches are analyzed based on the derived analytical relationships. Moreover, the mCSL and vCSL based wideband spectrum sensing algorithms are proposed based on the system model of MAGMC and their computational complexities are given. The proposed CSL based wideband spectrum sensing algorithms can effectively deal with the wireless channel fading and simulations show the improvement on performance of wideband spectrum sensing over related works.
Year
DOI
Venue
2019
10.1109/tvt.2019.2915269
IEEE Transactions on Vehicular Technology
Keywords
Field
DocType
Wideband,Spatial diversity,Antennas,Wireless sensor networks,Robot sensing systems,Fading channels
Wideband,Antenna diversity,Wireless,Subspace topology,Computer science,Fading,MIMO,Electronic engineering,Signal subspace,Cognitive radio
Journal
Volume
Issue
ISSN
68
7
0018-9545
Citations 
PageRank 
References 
0
0.34
0
Authors
3
Name
Order
Citations
PageRank
Tierui Gong161.10
Zhijia Yang2134.62
Meng Zheng313016.92