一种基于双阈值的频谱感知算法的测量研究

2009 Second International Workshop on Cognitive Radio and Advanced Spectrum Management Pub Date : 2009-05-18 DOI:10.1109/COGART.2009.5167236

J. Lehtomaki, Suvi Salmenkaita, J. Vartiainen, J. Makela, R. Vuohtoniemi, M. Juntti

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引用次数: 14

摘要

韦尔奇频谱估计器可用于频谱监测和传感。通常，检测阈值是假设噪声功率是从纯噪声样本中估计出来的。前向连续均值切除(FCME)算法是一种基于决策变量的自动决策方法，不需要先验地估计噪声功率。在本文中，我们提出了FCME算法与Welch谱估计的应用。此外，对基于Welch谱估计的FCME算法的渐近阈值设置问题进行了理论分析。基于双阈值法(LAD)和相邻聚类组合(ACC)的定位算法利用了FCME算法，非常适合于信号检测。本文给出了LAD ACC方法的实验室和现场测量结果，研究了不同类型信号的可探测性，包括一个真实的无线麦克风信号。

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Measurement studies of a spectrum sensing algorithm based on double thresholding

Welch spectrum estimator may be used for spectrum monitoring and sensing. Conventionally, the detection threshold is set assuming that the noise power is estimated from noise-only samples. The forward consecutive mean excision (FCME) algorithm is a method for automatically making decisions based on the decision variables, without estimation of the noise power a priori. In this paper, we propose the utilization of the FCME algorithm with the Welch spectrum estimator. Additionally, theoretical analysis about asymptotic threshold setting for the FCME algorithm with the Welch spectrum estimator is presented. The localization algorithm based on double-thresholding (LAD) with adjacent cluster combining (ACC) utilizes the FCME algorithm and is very suitable for signal detection. Laboratory and field measurement results with the LAD ACC method are included to study the detectability of different signal types, including a real wireless microphone signal.

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2009 Second International Workshop on Cognitive Radio and Advanced Spectrum Management

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