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引用次数: 77
摘要
频谱感知是认知无线电系统中最具挑战性的功能之一。识别信号的存在和识别特定频段信号的类型是认知无线电适应无线电环境的关键。本文提出了一种结合频谱相关分析和支持向量机的信号分类方法。通过光谱相关分析,选择4个光谱相干特征参数。通过使用非线性支持向量机,大量的计算是离线进行的,从而降低了计算复杂度。仿真结果表明,当信噪比为4 dB时,当数据长度为1000时,总体成功率在92.8%以上。与基于二叉决策树(binary decision tree, BDT)和多层线性感知器网络(multilayer linear perceptron network, MLPN)的分类器方法相比,该方法在低信噪比和训练次数有限的情况下更有效。
Signal Classification Based on Spectral Correlation Analysis and SVM in Cognitive Radio
Spectrum sensing is one of the most challenging functions in cognitive radio system. Detection of the presence of signals and distinction of the type of signals in a particular frequency band are critical for cognitive radios to adapt to the radio environment. In this paper, a novel approach to signal classification combining spectral correlation analysis and support vector machine (SVM) is introduced. Four spectral coherence characteristic parameters are chosen via spectral correlation analysis. By utilizing a nonlinear SVM, a significant amount of calculation is performed offline, thus the computational complexity is reduced. Simulations indicate that the overall success rate is above 92.8% with data length of 1000 when SNR is equal to 4 dB. Compared to the existing methods including the classifiers based on binary decision tree (BDT) and multilayer linear perceptron network (MLPN), the proposed approach is more effective in the case of low SNR and limited training numbers.
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