Abstract
In order to identify spectrum holes, secondary users (SUs) should detect whether the spectrum band is occupied by primary user (PU). Cooperative PU detection is the most prevalent PU detection method in cognitive radio (CR) networks. Existing cooperative PU detection usually consumes a dedicated reporting channel to share the detection results. This paper proposes a partial relay-based cooperative PU detection scheme that does not require any reporting channels. Our idea is to let the SU with higher signal-to-noise ratio (SNR) sacrifices part of its detection period acting as the relay node to help other SUs. Although the performance of this SU is inevitably impaired, other SUs may benefit from the relay, and performance of the whole CR network can be improved. Moreover, this paper investigates the relay policy of proposed scheme under two criteria. Considering the criterion of balancing detection accuracy, an interesting conclusion that the optimal relay policy merely depends on the SNR gap is derived. Both lower and upper bounds of the optimal relay policy are deduced as well. Considering the criterion of maximizing detection agility, numerical approach to obtain the optimal relay policy is introduced, and the agility gain is also analyzed. Simulation results are provided to verify all conclusions above.
Highlights
The dramatic flourish of wireless technologies has aroused great concern about spectrum resources in recent years [1–3]
Coined by Mitola [4], cognitive radio (CR) is regarded as a promising solution to the so-called “spectrum scarcity” issue by enabling the users without dedicated spectrum resources, namely secondary users (SUs), to reuse the temporal and spatial “holes” on the spectrum band that has been licensed to the primary user (PU) for exclusive use
Various methods have been suggested for PU detection, and cooperative PU detection increasingly becomes the most prevalent choice as it exploits the diversity of multiple SUs in CR networks [7]
Summary
The dramatic flourish of wireless technologies has aroused great concern about spectrum resources in recent years [1–3]. After combining SUs’ detection results, FC should feed its global decision back to SUs and inform them of either using or vacating the licensed band.
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More From: EURASIP Journal on Wireless Communications and Networking
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