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Recent Advances on Sub-Nyquist Sampling-Based Wideband Spectrum Sensing

Jun Fang, Bin Wang, Hongbin Li, Ying‐Chang Liang

2021IEEE Wireless Communications51 citationsDOI

Abstract

Cognitive radio (CR) is a promising technology enabling efficient utilization of the spectrum resource for future wireless systems. As future CR networks are envisioned to operate over a wide frequency range, advanced wideband spectrum sensing (WBSS) capable of quickly and reliably detecting idle spectrum bands across a wide frequency span is essential. In this article, we provide an overview of recent advances on sub-Nyquist sampling-based WBSS techniques, including compressed sensing-based methods and compressive covariance sensing-based methods. An elaborate discussion of the pros and cons of each approach is presented, along with some challenging issues for future research. A comparative study suggests that the compressive covariance sensing-based approach offers a more competitive solution for reliable real-time WBSS.

Topics & Concepts

WidebandComputer scienceCognitive radioCompressed sensingNyquist–Shannon sampling theoremWirelessRadio spectrumSampling (signal processing)Electronic engineeringTelecommunicationsReal-time computingAlgorithmEngineeringComputer visionDetectorAdvanced MIMO Systems OptimizationCognitive Radio Networks and Spectrum SensingSparse and Compressive Sensing Techniques
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