A Network Intrusion Detection Approach Using Extreme Gradient Boosting with Max-Depth Optimization and Feature Selection

G. M. Hassan, A. Gumaei, Abed Alanazi, Samah M. Alzanin
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引用次数: 1

Abstract

Network intrusion detection system (NIDS) has become a vital tool to protect information anddetect attacks in computer networks. The performance of NIDSs can be evaluated by the numberof detected attacks and false alarm rates. Machine learning (ML) methods are commonly usedfor developing intrusion detection systems and combating the rapid evolution in the pattern ofattacks. Although there are several methods proposed in the state-of-the-art, the development ofthe most effective method is still of research interest and needs to be developed. In this paper,we develop an optimized approach using an extreme gradient boosting (XGB) classifier withcorrelation-based feature selection for accurate intrusion detection systems. We adopt the XGBclassifier in the proposed approach because it can bring down both variance and bias and hasseveral advantages such as parallelization, regularization, sparsity awareness hardware optimization,and tree pruning. The XGB uses the max-depth parameter as a specified criterion toprune the trees and improve the performance significantly. The proposed approach selects thebest value of the max-depth parameter through an exhaustive search optimization algorithm.We evaluate the approach on the UNSW-NB15 dataset that imitates the modern-day attacks ofnetwork traffic. The experimental results show the ability of the proposed approach to classifyingthe type of attacks and normal traffic with high accuracy results compared with the currentstate-of-the-art work on the same dataset with the same partitioning ratio of the test set.
基于最大深度优化和特征选择的极值梯度增强网络入侵检测方法
网络入侵检测系统(NIDS)已成为计算机网络中保护信息和检测攻击的重要工具。可以通过检测到的攻击次数和虚警率来评估网络入侵防御系统的性能。机器学习(ML)方法通常用于开发入侵检测系统和对抗快速演变的攻击模式。虽然目前已有几种方法被提出,但如何找到最有效的方法仍是一个有待研究的问题。在本文中,我们开发了一种使用极端梯度增强(XGB)分类器的优化方法,该分类器具有基于相关性的特征选择,用于精确的入侵检测系统。我们在该方法中采用了XGBclassifier,因为它可以降低方差和偏差,并且具有并行化、正则化、稀疏感知硬件优化和树修剪等优点。XGB使用最大深度参数作为指定的标准来管理树并显著提高性能。该方法通过穷举搜索优化算法选择最大深度参数的最佳值。我们在UNSW-NB15数据集上评估了该方法,该数据集模仿了现代网络流量攻击。实验结果表明,与现有方法相比,该方法在相同的数据集上对攻击类型和正常流量进行了分类,准确率较高。
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