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引用次数: 28

摘要

机器学习技术有助于理解数据集中的潜在模式,以开发针对网络攻击的防御机制。多层感知器(MLP)技术是一种用于检测攻击数据与良性数据的机器学习技术。然而,当数据集中存在不平衡,无法对数据中的攻击样本进行正确分类时,很难构建有效的模型。在本研究中,我们首先使用UGR ' 16数据集进行数据整理。该技术有助于从原始数据集中准备一个测试集,以有效地训练神经网络模型。我们用一系列不同大小的输入(即10000、50000、100万)进行实验,观察MLP神经网络模型在特征分布上的性能。随后,我们使用生成式对抗网络(GAN)模型生成不同攻击标签的样本(例如黑名单,异常垃圾邮件,ssh扫描)来平衡数据集。这些样本是基于UGR ' 16数据集的数据生成的。对MLP神经网络模型的进一步实验表明,GAN使平衡的攻击样本数据集比不平衡的攻击样本数据集产生更准确的结果。
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Addressing Imbalanced Data Problem with Generative Adversarial Network For Intrusion Detection
Machine learning techniques help to understand underlying patterns in datasets to develop defense mechanisms against cyber attacks. Multilayer Perceptron (MLP) technique is a machine learning technique used in detecting attack vs. benign data. However, it is difficult to construct any effective model when there are imbalances in the dataset that prevent proper classification of attack samples in data. In this research, we use UGR’16 dataset to conduct data wrangling initially. This technique helps to prepare a test set from the original dataset to train the neural network model effectively. We experimented with a series of inputs of varying sizes (i.e. 10000, 50000, 1 million) to observe the performance of the MLP neural network model with distribution of features over accuracy. Later, we use Generative Adversarial Network (GAN) model that produces samples of different attack labels (e.g. blacklist, anomaly spam, ssh scan) for balancing the dataset. These samples are generated based on data from the UGR’16 dataset. Further experiments with MLP neural network model shows that a balanced attack sample dataset, made possible with GAN, produces more accurate results than an imbalanced one.
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