Improved semi-blind spectrum sensing for cognitive radio with locally optimum detection

In cognitive radio, there might be some information about primary users’ signals available at secondary users’ receivers since communications systems usually employ training signals for channel estimation and synchronization purposes. This training information can be exploited along with data symbol...

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Bibliographic Details
Published in:IET signal processing 2016-07, Vol.10 (5), p.524-531
Main Authors: Cardenas-Juarez, Marco, Ghogho, Mounir, Pineda-Rico, Ulises, Stevens-Navarro, Enrique
Format: Article
Language:English
Subjects:
additive white Gaussian noise
AWGN channels
binary phase shift keying‐modulated signal
channel estimation
Channels
Cognitive radio
Detectors
energy detector
hybrid detector
linear modulation
locally optimal semiblind detection metric
LOD
low signal‐to‐noise ratio
matched filter
Matched filters
Optimization
Phase shift
phase shift keying
primary user signal
primary users signals
radio spectrum management
secondary users receivers
semiblind detector test statistic
semiblind spectrum sensing improvement
signal detection
signal‐to‐noise ratio
Statistical tests
synchronisation
Training
unknown phase shift
weighted semiblind locally optimum detector design
WSBLOD design
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Summary:In cognitive radio, there might be some information about primary users’ signals available at secondary users’ receivers since communications systems usually employ training signals for channel estimation and synchronization purposes. This training information can be exploited along with data symbols to perform semi-blind detection of primary users’ signals. In the literature, it is considered that the locally optimal semi-blind detection metric is the linear combination of the energy detector (ED) and the matched filter, i.e. the hybrid detector. Locally optimum detection (LOD), known to be optimum in the low signal-to-noise ratio, is proposed here in the design of a weighted semi-blind locally optimum detector (WSBLOD) by focusing on linear modulation in presence of an unknown phase shift and additive white Gaussian noise. By using LOD, it is shown that for binary phase shift keying-modulated signals, the semi-blind detector test statistic consists not only in combining linearly the matched filter and the ED but also the pseudo-energy of the received signal. Then, the designed semi-blind detector is improved by optimising the weights of the matched filter, energy and pseudo-energy in the test statistic, which maximises the probability of detection. Simulation results show that the proposed WSBLOD outperforms the hybrid detector.
ISSN:1751-9675
1751-9683
1751-9683
DOI:10.1049/iet-spr.2015.0006