Sensing throughput trade-off for an energy efficient cognitive radio network under faded sensing and reporting channel

Summary The trade-off between sensing time and throughput is investigated in the context of an energy-efficient cognitive radio network considering both the sensing and reporting channels are Rayleigh faded, while the existing literature considered the fading in sensing channel only. In this paper, such a trade-off is re-examined under Rayleigh faded sensing as well as reporting channel. Novel analytical expressions for overall detection probability and false alarm probability are developed under such scenario. The performance is investigated in terms of detection probability, false alarm probability, throughput and energy efficiency of the network for different sensing parameters such as sensing time, number of samples, sensing channel signal-to-noise ratio and reporting channel signal-to-noise ratio. Our analysis shows that the quality of the reporting channel significantly affects the trade-off performance of the network. Copyright © 2015 John Wiley & Sons, Ltd.

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