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Blind Orthogonal Least Squares based Compressive Spectrum Sensing

Signal Processing 2023-11-03 v2

Abstract

As an enabling technique of cognitive radio (CR), compressive spectrum sensing (CSS) based on compressive sensing (CS) can detect the spectrum opportunities from wide frequency bands efficiently and accurately by using sub-Nyquist sampling rate. However, the sensing performance of most existing CSS excessively relies on the prior information such as spectrum sparsity or noise variance. Thus, a key challenge in practical CSS is how to work effectively even in the absence of such information. In this paper, we propose a blind orthogonal least squares based CSS algorithm (B-OLS-CSS), which functions properly without the requirement of prior information. Specifically, we develop a novel blind stopping rule for the OLS algorithm based on its probabilistic recovery condition. This innovative rule gets rid of the need of the spectrum sparsity or noise information, but only requires the computational-feasible mutual incoherence property of the given measurement matrix. Our theoretical analysis indicates that the signal-to-noise ratio required by the proposed B-OLS-CSS for achieving a certain sensing accuracy is relaxed than that by the benchmark CSS using the OMP algorithm, which is verified by extensive simulation results.

Keywords

Cite

@article{arxiv.2204.05086,
  title  = {Blind Orthogonal Least Squares based Compressive Spectrum Sensing},
  author = {Liyang Lu and Wenbo Xu and Yue Wang and Zhi Tian},
  journal= {arXiv preprint arXiv:2204.05086},
  year   = {2023}
}

Comments

14 figures, IEEE Transactions on Vehicular Technology (early access), Jun. 2023

R2 v1 2026-06-24T10:44:27.827Z