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Cyclostationary-Based Architectures for Spectrum Sensing in IEEE 802.22 WRAN

机译：IEEE 802.22 WRAN中用于频谱感应的基于循环平稳的体系结构

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The well known noise rejection property of the cyclostationary spectrum makes it an ideal candidate for spectrum sensing in low SNR environments such as the IEEE 802.22 WRAN, which stipulates detection of primary signals at -20.8dB. In this paper, we propose two novel detector architectures that exploit cyclostationary properties: the Spectral Correlation Density (SCD), and the Magnitude Squared Coherence (MSC). Through extensive simulations, both on generated data and real world ATSC capture data, we show that our detector achieves an improvement of 2.5dB compared to existing proposals. Additionally, we compare our proposal against two popular choices for spectrum sensing in cognitive radio - the matched filter detection and energy detection, and show the superiority of cyclostationary spectrum sensing in such low SNR environments.

机译：循环平稳频谱的众所周知的噪声抑制特性使其成为低信噪比环境（例如IEEE 802.22 WRAN）中频谱检测的理想候选者，该标准规定以-20.8dB的频率检测主信号。在本文中，我们提出了两种利用循环平稳特性的新型检测器架构：谱相关密度（SCD）和幅值平方相干性（MSC）。通过对生成的数据和真实的ATSC捕获数据进行广泛的仿真，我们证明了与现有建议相比，我们的检测器可实现2.5dB的改善。此外，我们将我们的建议与认知无线电中频谱感应的两个流行选择（匹配滤波器检测和能量检测）进行了比较，并显示了在这种低SNR环境中循环平稳频谱感应的优越性。

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《2010 IEEE Global Telecommunications Conference 》|2010年|p.1-5|共5页
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Deepa B.; Iyer A.P.; Murthy C.R.;
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1. Reliable spectrum sensing scheme based on dual detector with double-threshold for IEEE 802.22 WRAN [J] . Ashish Bagwari, Jyotshana Kanti, Geetam Singh Tomar, Journal of High Speed Networks . 2015 ,第3期

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2. A Multichannel Spectrum Sensing Fusion Mechanism for Cognitive Radio Networks: Design and Application to IEEE 802.22 WRANs [J] . Navid Tadayon, Sonia Aïssa IEEE Transactions on Cognitive Communications and Networking . 2015 ,第4期

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3. Cooperative Spectrum Sensing in Cognitive Radios Using Perceptron Learning for IEEE 802.22 WRAN [J] . V. Balaji, Pranav Kabra, P.V.P.K. Saieesh, Procedia Computer Science . 2015 ,第1期

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4. Cyclostationary-based Architectures for Spectrum Sensing in IEEE 802.22 WRAN [C] . Deepa B, Anand Padmanabha Iyer, Chandra R. Murthy IEEE Global Telecommunications ConferenceGLOBECOM . 2010

机译：IEEE 802.22 WRAN中纤巧的基于螺旋感的架构架构
5. Cognitive Radio Spectrum Sensing Using Online Dictionary Learning and Deep Layered Architectures [D] . Abid, Dan. 2017

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机译：认知无线电的多通道频谱感知融合机制网络：IEEE 802.22 WRaN的设计和应用

Cyclostationary-Based Architectures for Spectrum Sensing in IEEE 802.22 WRAN

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