4.3 Article

Multi-cycle spectrum sensing for OFDM signals under cyclic frequency offsets in cognitive vehicular networks

Journal

IET COMMUNICATIONS
Volume 14, Issue 14, Pages 2259-2269

Publisher

INST ENGINEERING TECHNOLOGY-IET
DOI: 10.1049/iet-com.2019.1158

Keywords

OFDM modulation; radio spectrum management; probability; maximum likelihood estimation; cognitive radio; signal detection; CFO values; constant false alarm rate detector; false alarm probability; generalised likelihood ratio test; multiple cycles; maximum-likelihood estimation; almost-cyclostationary process; Doppler channel; nonzero radial acceleration; high mobility; nominal cyclic frequency; cyclostationary spectrum sensing; occupancy status; cognitive radio technology; cognitive vehicular networks; cyclic frequency offsets; orthogonal frequency-division multiplexing signals; multicycle spectrum sensing

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Spectrum sensing plays a key role in cognitive radio technology to acquire information on the occupancy status of the channel. Cyclostationary spectrum sensing is considered one of the most promising approaches. However, its performance is severely degraded by a mismatch between the actual and the nominal cyclic frequency [i.e. cyclic frequency offset (CFO)]. This is particularly true for vehicular networks, due to the high mobility and particularly to the presence of a non-zero radial acceleration between the transmitter and the receiver that makes the signal filtered out by the Doppler channel chirped, thus introducing the CFO. Consequently, the signal to be detected has to be properly modelled as a generalised almost-cyclostationary process. The proposed approach performs a maximum-likelihood estimation of the CFO jointly to the detection exploiting multiple cycles, through a maximisation of the generalised likelihood ratio test. The closed-form of false alarm probability is derived highlighting that this approach represents a constant false alarm rate detector. Numerical evaluations are provided to show the correctness of the theoretical analysis and that the performance is approximatively constant for a large range of CFO values. Moreover, comparisons with existing algorithms are provided.

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