Theoretical Analyses of Maximum Cyclic Autocorrelation Selection Based Spectrum Sensing

Shusuke NARIEDA; Daiki CHO; Hiromichi OGASAWARA; Kenta UMEBAYASHI; Takeo FUJII; Hiroshi NARUSE

doi:10.1587/transcom.2019EBP3175

This article has now been updated. Please use the final version.

Theoretical Analyses of Maximum Cyclic Autocorrelation Selection Based Spectrum Sensing

Shusuke NARIEDA, Daiki CHO, Hiromichi OGASAWARA, Kenta UMEBAYASHI, Takeo FUJII, Hiroshi NARUSE

Author information

Keywords: Cognitive radio, maximum cyclic autocorrelation selection based spectrum sensing, signal cyclostationary

JOURNAL RESTRICTED ACCESS Advance online publication

Article ID: 2019EBP3175

DOI https://doi.org/10.1587/transcom.2019EBP3175

The final version of this article is now available: Vol. E103.B (2020), No. 12 pp. 1462-1469

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Abstract

This paper provides theoretical analyses for maximum cyclic autocorrelation selection (MCAS)-based spectrum sensing techniques in cognitive radio networks. The MCAS-based spectrum sensing techniques are low computational complexity spectrum sensing in comparison with some cyclostationary detection. However, MCAS-based spectrum sensing characteristics have never been theoretically derived. In this study, we derive closed form solutions for signal detection probability and false alarm probability for MCAS-based spectrum sensing. The theoretical values are compared with numerical examples, and the values match well with each other.

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