Hierarchical graph neuron scheme in classifying intrusion attack

2017 4th International Conference on Computer Applications and Information Processing Technology (CAIPT) Pub Date : 2017-08-01 DOI:10.1109/CAIPT.2017.8320702

Aulia Essra, O. S. Sitompul, Benny Benyamin Nasution, R. Rahmat

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引用次数: 3

Abstract

Hierarchical Graph Neuron (HGN) is an extension of network-centric algorithm called Graph Neuron (GN), which is used to perform parallel distributed pattern recognition. In this research, HGN scheme is used to classify intrusion attacks in computer networks. Patterns of intrusion attacks are preprocessed in three steps: selecting attributes using information gain attribute evaluation, discretizing the selected attributes using entropy-based discretization supervised method, and selecting the training data using K-Means clustering algorithm. After the preprocessing stage, the HGN scheme is then deployed to classify intrusion attack using the KDD Cup 99 dataset. The results of the classification are measured in terms of accuracy rate, detection rate, false positive rate and true negative rate. The test result shows that the HGN scheme is promising and stable in classifying the intrusion attack patterns with accuracy rate reaches 96.27%, detection rate reaches 99.20%, true negative rate below 15.73%, and false positive rate as low as 0.80%.

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入侵攻击分类的层次图神经元算法

分层图神经元(HGN)是对以网络为中心的图神经元(GN)算法的扩展，用于并行分布式模式识别。在本研究中，采用HGN方案对计算机网络中的入侵攻击进行分类。入侵攻击模式的预处理分为三个步骤:利用信息增益属性评估选择属性，利用基于熵的离散化监督方法对选择的属性进行离散化，利用K-Means聚类算法选择训练数据。预处理后，利用KDD Cup 99数据集部署HGN方案对入侵攻击进行分类。分类结果以准确率、检出率、假阳性率和真阴性率来衡量。测试结果表明，HGN方案在入侵攻击模式分类方面具有良好的前景和稳定性，准确率达到96.27%，检测率达到99.20%，真阴性率低于15.73%，假阳性率低至0.80%。

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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2017 4th International Conference on Computer Applications and Information Processing Technology (CAIPT)

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