通过贪婪合作频谱感知提高认知无线电网络的频谱利用率和主用户检测能力

S. Dhivya, A. Rajeswari
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引用次数: 0

摘要

通过优化频谱的利用,现代无线通信技术的主要用户可以获得更高的探测机会。本研究旨在研究如何利用 NI-USRP 硬件平台为认知无线电网络建立贪婪合作频谱感知。研究主要涉及能量检测和基于特征值的检测方法,这两种方法都因其在不事先了解主用户信号的情况下感知频谱的能力而备受认可。在硬件布置中,有一个发射器和两个认知无线电接收器。LABVIEW 使其部署简单,并最大限度地提高了大样本的检测概率。研究证明,合作频谱感知优于非合作频谱感知,从而降低了检测过程中出现错误的风险。研究发现,在同一时间内,OR 组合规则比 AND 规则具有更高的检测概率。该研究强调了扩大合作频谱感测以提高整体检测能力的重要性。信噪比超过 10 dB 时,能量检测器可以工作;信噪比降至 -9 dB 时,特征值检测器继续工作。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Enhancing spectrum utilization and primary user detection in cognitive radio networks through greedy cooperative spectrum sensing
The utilization of the spectrum is optimized through which primary users of modern wireless communication technologies might obtain a higher chance of detection. The research aims to study how the NI-USRP hardware platform can be used to set up greedy cooperative spectrum sensing for cognitive radio networks. Research primarily deals with energy detection and eigenvalue-based detection approaches, both of which are highly recognized for their capacity to sense the spectrum without having prior knowledge of the primary user signals. In the hardware arrangement, there is one transmitter and two cognitive radio receivers. LABVIEW makes it simple to deploy and maximizes the detection probability across a large sample. Here, it was demonstrated that cooperative spectrum sensing is superior to non-cooperative spectrum sensing, which results in a reduction in the risk of errors occurring during detection. The research discovered that the OR combination rule has a higher detection probability than the AND rule at the same time. The research emphasizes the significance of expanding cooperative spectrum sensing to improve overall detection capabilities. SNRs that are more than 10 dB allow the energy detector to operate, and the eigenvalue detector continues to work when the SNR drops to –9 dB.
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