Network Anomaly Detection Using Genetic Programming with Semantic Approximation Techniques

2021 RIVF International Conference on Computing and Communication Technologies (RIVF) Pub Date : 2021-08-19 DOI:10.1109/RIVF51545.2021.9642140

Thi Huong Chu, Nguyen Quang Uy

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Abstract

Network anomaly detection aims at detecting malicious behaviors to the network systems. This problem is of great importance in developing intrusion detection systems to protect networks from intrusive activities. Recently, machine learning-based methods for anomaly detection have become more popular in the research community thanks to their capability in discovering unknown attacks. In the paper, we propose an application of Genetic Programming (GP) with the semantics approximation technique to network anomaly detection. Specifically, two recently proposed techniques for reducing GP code bloat, i.e. Subtree Approximation (SA) and Desired Approximation (DA) are applied for detecting network anomalies. SA and DA are evaluated on 6 datasets in the field of anomaly detection and compared with standard GP and five common machine learning methods. Experimental results show that SA and DA have achieved better results than that of standard GP and the performance of GP is competitive with other machine learning algorithms.

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基于语义逼近技术的遗传规划网络异常检测

网络异常检测的目的是检测对网络系统的恶意行为。该问题对于开发入侵检测系统以保护网络免受入侵活动的影响具有重要意义。最近，基于机器学习的异常检测方法由于其发现未知攻击的能力而在研究界变得越来越流行。本文提出了一种基于语义逼近技术的遗传规划方法在网络异常检测中的应用。具体来说，最近提出的两种减少GP代码膨胀的技术，即子树近似(SA)和期望近似(DA)用于检测网络异常。在异常检测领域的6个数据集上对SA和DA进行了评估，并与标准GP和5种常见的机器学习方法进行了比较。实验结果表明，SA和DA比标准GP取得了更好的结果，GP的性能与其他机器学习算法具有竞争力。

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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2021 RIVF International Conference on Computing and Communication Technologies (RIVF)

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