Direct-Conversion Spectrum Sensor Impaired by Symmetric α-Stable and α-Sub-Gaussian Noises

Abstract: Spectrum sensing in underwater cognitive acoustic networks (UCANs) can be impaired by impulsive noise generated by snapping shrimps. In mathematical analysis or simulations, the amplitude variations of this noise are commonly modeled by the symmetric alpha-stable (SS) distribution. As an alternative, the alpha-sub-Gaussian (SG) distribution can model both temporal correlation and amplitude variations. This article assesses the performance of underwater spectrum sensing with a direct-conversion receiver (DCR) u… Show more

“…It is easy to notice in the literature that the SαS distribution is typically adopted to characterize the heavy-tailed behavior of non-Gaussian noise, specially impulsive noise, in the CSS context, as can be seen for instance in [10]- [12]. For instance, in [13], the performance of a centralized CSS with data fusion is assessed, considering both SαS and alpha-sub-Gaussian (αSG) impulsive noise models. The latter keeps the amplitudes for each random variable following the SαS distribution, but introduces a non-zero temporal correlation among a group of adjacent samples.…”

Performance of Detectors for Cooperative Spectrum Sensing Under Laplacian Noise

“…It is easy to notice in the literature that the SαS distribution is typically adopted to characterize the heavy-tailed behavior of non-Gaussian noise, specially impulsive noise, in the CSS context, as can be seen for instance in [10]- [12]. For instance, in [13], the performance of a centralized CSS with data fusion is assessed, considering both SαS and alpha-sub-Gaussian (αSG) impulsive noise models. The latter keeps the amplitudes for each random variable following the SαS distribution, but introduces a non-zero temporal correlation among a group of adjacent samples.…”

Performance of Detectors for Cooperative Spectrum Sensing Under Laplacian Noise