面向实时特征提取的lsamvy行走的过零分析与信息发散

Int. J. Handheld Comput. Res. Pub Date : 2016-10-01 DOI:10.4018/IJHCR.2016100104

J. D. T. Gonzalez, W. Kinsner

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引用次数: 1

摘要

提出了一种基于Smirnov变换生成具有Levy-walks统计特性的合成数据的方法。该方法可用于生成任意规定的概率密度函数pdf。解决了与互联网流量相关的网络安全工程问题。合成Levy-walks过程与不同特征的路段交织在一起，形成一个复合信号，通过在不同大小的窗口内通过零交叉率ZCR进行分析，以识别路段。直接在时域进行ZCR计算的优点对实时实现具有吸引力。此外，通过Kullback-Leibler散度KLD，给出了任意过程的pdf之间的密切程度的表征，重点是Levy行走和模型pdf。从KLD实验中获得的结果提供了接近度的分类确定。这些结果是本研究的一个显著成果，也有望作为复杂信号实时分类的特征。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Zero-Crossing Analysis and Information Divergence of Lévy Walks for Real-Time Feature Extraction

A method, based on the Smirnov transform, for generating synthetic data with the statistical properties of Levy-walks is presented. This method can be utilized for generating arbitrary prescribed probability density functions pdf. A cybersecurity engineering problem associated with Internet traffic is addressed. The synthetic Levy-walks process is intertwined with sections of distinct characteristics creating a composite signal that is analyzed through zero-crossing rate ZCR within a varying-size window to identify sections. The advantages of the ZCR computation directly in the time-domain are appealing for real-time implementations. Moreover, the characterization of the degree of closeness, via the Kullback-Leibler divergence KLD, among the pdfs of arbitrary processes focusing on Levy walks and model pdfs is presented. The results obtained from the KLD experiments provide a categorical determination of the closeness degree. These results, a remarkable achievement in this research, are also promising to be used as features for classification of complex signals in real-time.

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Int. J. Handheld Comput. Res.

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