%0 Conference Paper
%A Mossa, A.M.
%A Jeoti, V.
%D 2010
%F scholars:873
%K Classification; Cognitive radio; Cyclostationarity; TV-PAL; Wireless microphone; WRAN, Computer applications; Fading (radio); Fading channels; Industrial electronics; Microphones; Multipath propagation; Radio systems; Spectroscopy, Radio
%P 636-640
%R 10.1109/ICCAIE.2010.5735012
%T The performance of cyclostationarity-based WRAN classification approach in multipath fading channel
%U https://khub.utp.edu.my/scholars/873/
%X Cognitive radio is a promising technology to increase spectrum utilization. In this technology, cognitive radios (secondary users) share frequency spectrum with licensed users (primary users). To enable spectrum sharing, cognitive radio supports two functionalities: spectrum sensing and primary users classification. In this paper we evaluate the performance of cyclostationarity-based classification approach in multipath fading channel and noise uncertainty. This approach was proposed in context of WRAN 802.22; the first cognitive radio standard. The results show that the proposed approach performs well to recognize TV-PAL and wireless microphone as the primary users. © 2010 IEEE.
%Z cited By 2; Conference of 2010 International Conference on Computer Applications and Industrial Electronics, ICCAIE 2010 ; Conference Date: 5 December 2010 Through 7 December 2010; Conference Code:84532