V. Kontorovich, F. Ramos-Alarcón, Oscar Filio-Rodriguez, S. Primak
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引用次数: 4
摘要
本文表明,认知无线电网络的循环平稳频谱感知,应用多个循环频率进行单用户检测,可以用“虚拟分集分支”或SIMO雷达的最优非相干分集加法来解释。这种方法允许提出类似于多样性组合的次优算法,这些算法可以为Neyman-Pearson Test (NPT)提供接近最优的特性。该分析基于广义高斯(Klovsky-Middleton)通道模型,该模型允许以最一般的方式获得上述NPT特征:误检概率(PM)和虚警概率(Pfa)。分析了一些准最优算法,如能量接收算法和选择加法算法,并与最优算法的抗噪性能(接收机工作特性- roc)进行了比较。
Cyclostationary spectrum sensing for Cognitive Radio and multiantenna systems
In this paper it is shown that cyclostationary spectrum sensing for Cognitive Radio networks, applying multiple cyclic frequencies for single user detection can be interpreted in terms of optimal incoherent diversity addition for "virtual diversity branches" or SIMO radar. This approach allows proposing, by analogy to diversity combining, suboptimal algorithms which can provide near optimal characteristics for the Neyman-Pearson Test (NPT). The analysis is based on the Generalized Gaussian (Klovsky-Middleton) Channel Model, which allows obtaining the above mention NPT characteristics: probability of misdetection (PM) and probability of false alarm (Pfa) in the most general way. Some quasi-optimum algorithms such as energetic receiver and selection addition algorithm are analyzed and their comparison with the noise immunity properties (Receiver Operational Characteristics-ROC) of the optimum approach is provided as well.
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