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J Electromagn Eng Sci > Volume 12(1); 2012 > Article
Journal of the Korean Institute of Electromagnetic and Science 2012;12(1):1-7.
DOI: https://doi.org/10.5515/JKIEES.2012.12.1.1   
Optimal Throughput of Secondary Users over Two Primary Channels in Cooperative Cognitive Radio Networks
Ha Nguyen Vu, Hyung-Yun Kong
Department of Electronic Engineering, University of Ulsan
Abstract
In this paper, we investigated the throughput of a cognitive radio network where two primary frequency channels (PCs) are sensed and opportunistically accessed by N secondary users. The sharing sensing member (SSM) protocol is introduced to sense both PCs simultaneously. According to the SSM protocol, N SUs (Secondary User) are divided into two groups, which allows for the simultaneous sensing of two PCs. With a frame structure, after determining whether the PCs are idle or active during a sensing slot, the SUs may use the remaining time to transmit their own data. The throughput of the network is formulated as a convex optimization problem. We then evaluated an iterative algorithm to allocate the optimal sensing time, fusion rule and the number of members in each group. The computer simulation and numerical results show that the proposed optimal allocation improves the throughput of the SU under a misdetection constraint to protect the PCs. If not, its initial date of receipt shall be nullified.
Key words: Cognitive Radio, Cooperative Spectrum Sensing, Rayleigh Fading Channel
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