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Experimental Analysis of Block-Sparsity-Based Spectrum Sensing Techniques for Cognitive Radar

Augusto Aubry, Vincenzo Carotenuto, Antonio De Maio, Mark A. Govoni, Alfonso Farina

2020IEEE Transactions on Aerospace and Electronic Systems26 citationsDOI

Abstract

Due to increasing demands for spectral resources in both communication and radar systems, the radio frequency electromagnetic spectrum is becoming more and more crowded with interfering nuisances. In order to tackle the scarcity of available spectral intervals, in recent years a multitude of sensing algorithms have been developed for improving spectrum sharing. Among these, two-dimensional (2-D) spectrum sensing can be used to obtain space-frequency electromagnetic spectrum awareness. Specifically, this approach makes it possible to optimize the spectrum usage of certain spectrum portions whose occupancy varies both temporally and spatially. In this article, we evaluate the effectiveness of certain space-frequency map recovery algorithms relying on the use of commercially available hardware. To this end, we employ an inexpensive four-channel coherent receiver, using software-defined radio components, for emitter localization. Hence, after proper calibration of the receiving system, the acquired samples are used to evaluate the performance of different signal processing strategies which exploits the inherent block-sparsity of the overall profile. At the analysis stage, results reveal the effectiveness of such algorithms.

Topics & Concepts

Cognitive radioComputer scienceRadarElectronic engineeringBlock (permutation group theory)Software-defined radioSpectrum managementRadio spectrumReal-time computingAlgorithmWirelessTelecommunicationsEngineeringMathematicsGeometryRadar Systems and Signal ProcessingSparse and Compressive Sensing TechniquesAdvanced SAR Imaging Techniques
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