Cyclostationarity-Based Detection of Randomly Arriving or Departing Signals

Abstract: This paper addresses the problem of detection of randomly arriving or departing primary user (PU) signals in cognitive radio systems. The detection problem of the dynamic PU signal is modeled as a binary hypothesis testing problem where the PU signal might randomly depart or arrive during the sensing period. Then, we detect the cyclostationarity of the PU signal using a test statistic derived from the spectral autocoherence function in dynamic PU signal environments. Numerical results show that the proposed sc… Show more

“…For a cyclostationary based detection technique, the cyclostationary properties of a random PU signal have been used to estimate the weighting decision. In [35], a cyclostationarity-based scheme was proposed for randomly arrival or departing PU signal without providing the analytical form of the weighting decision. Besides, it is not a realistic scenario according to considering only one case.…”

Double Threshold Weighted Energy Detection for Asynchronous PU Activities in the Presence of Noise Uncertainty

“…For a cyclostationary based detection technique, the cyclostationary properties of a random PU signal have been used to estimate the weighting decision. In [35], a cyclostationarity-based scheme was proposed for randomly arrival or departing PU signal without providing the analytical form of the weighting decision. Besides, it is not a realistic scenario according to considering only one case.…”

Double Threshold Weighted Energy Detection for Asynchronous PU Activities in the Presence of Noise Uncertainty

User Identification Methods in Cognitive Radio Networks

Optimized design and analysis approach of user detection by non cooperative detection computing methods in CR networks