主用户工作周期对基于mde动态能量检测的频谱感知方案的影响

W. Saad, M. Ismail, R. Nordin, Ayman A. El-Saleh
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引用次数: 2

摘要

通过使用能量检测来揭示非平稳PU信号,开发了PU工作周期的思想,用于分析频谱传感的性能。本文旨在分析当主用户状态在感应期间发生变化时,主用户工作时段对能量探测器性能的影响。本文根据最小决策误差(MDE)方法对能量检测器进行了改进,将PU工作周期的影响纳入模型。还提出了新的检测器,以增强对PU显示的工作周期的检测,其中实现了一个感知周期,以便计算调查检测需求所需的最小感知周期。估计结果表明,传统能量检测的预期性能不能反映其真实性能。此外,减少工作周期对降低检测性能的影响更大,从而影响接收到的信号强度,即使由于低信噪比而存在明显的噪声不确定性,所提出的算法也可以获得精确的检测性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effect of work period of the primary user on spectrum sensing schemes based on MDE-dynamic energy detection
The idea of a PU work period is developed for analysing the performance of spectrum sensing through the use of energy detection to disclose for non-stationary PU signals. This paper is aimed to analysis the effect of the primary user work period on the performance of the energy detector when the state of the primary user is changed during the sensing period. For this paper, the energy detector was modified to include the impact of the PU work period into the model according to the minimum decision error (MDE) method. Also proposes new detectors in order to enhance detection with regard to the work period displayed by the PU, where it is implemented for a sensing period in order to compute the minimum sensing period necessary to investigation the detection needs. The estimates indicate that the expected performance of the conventional energy detection does not indicate the true performance. In addition, decreasing the work period has a greater impact on reducing the detection performance and thus affect the strength of the signal received, as well the proposed algorithms can result in a precise detection performance even if there is an obvious noise uncertainty due to a low signal-to-noise ratio.
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