PSO-ACO-based bi-phase lightweight intrusion detection system combined with GA optimized ensemble classifiers

Arpita Srivastava, Ditipriya Sinha
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Abstract

Features within the dataset carry a significant role; however, resource utilization, prediction-time, and model weight are increased by utilizing high-dimensional data in intrusion-detection paradigm. This paper aims to design a novel lightweight intrusion detection system in two phases utilizing a swarm intelligence-based technique. In 1st-phase, essential features are selected using particle swarm optimization algorithm by considering imbalanced dataset. Ant colony optimization algorithm is utilized in 2nd-phase for extracting information-rich and uncorrelated features. Additionally, genetic algorithm is employed for fine-tuning each detection model. Proposed model’s performance is evaluated on different base and ensemble classifiers, and it is observed that xgboost achieves best accuracy with 90.38%, 92.63%, and 97.87% on NSL-KDD, UNSW-NB15, and CSE-CIC-IDS2018 datasets, respectively. The proposed model also outperforms other traditional dimensionality reduction and state-of-the-art approaches with statistical validation. This paper also analyses objective function of each metaheuristic algorithm used in this paper, applying convergence graphs, box, and swarm plots.

Abstract Image

基于 PSO-ACO 的双阶段轻量级入侵检测系统与 GA 优化集合分类器相结合
数据集内的特征具有重要作用;然而,在入侵检测范例中利用高维数据会增加资源利用率、预测时间和模型权重。本文旨在利用基于蜂群智能的技术,分两个阶段设计一种新型的轻量级入侵检测系统。在第一阶段,考虑到不平衡数据集,使用粒子群优化算法选择基本特征。在第二阶段,利用蚁群优化算法提取信息丰富且不相关的特征。此外,还采用遗传算法对每个检测模型进行微调。在 NSL-KDD、UNSW-NB15 和 CSE-CIC-IDS2018 数据集上,xgboost 分别达到了 90.38%、92.63% 和 97.87% 的最佳准确率。通过统计验证,本文提出的模型还优于其他传统降维方法和最先进的方法。本文还应用收敛图、方框图和蜂群图分析了本文使用的每种元启发式算法的目标函数。
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