A Comparative Review on DDoS Attack Detection Using Machine Learning Techniques

Malaysian Journal of Science and Advanced Technology Pub Date : 2024-03-09 DOI:10.56532/mjsat.v4i2.208

Zerin Hasan Sahosh, Azraf Faheem, Marzana Bintay Tuba, Syeda Anika Tasnim, Syeda Anika, Tasnim

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Abstract

The rapid growth of the internet and the increasing reliance on digital infrastructures have posed significant challenges to cybersecurity. Among the other variants of attacks, Distributed Denial of Service (DDoS) attacks have emerged as one of the most destructive and common threats. These attacks disrupt or slow down network services by overwhelming the network infrastructure with a massive volume of malicious traffic. To effectively identify and mitigate DDoS attacks, machine learning techniques have been extensively employed in intrusion detection systems. Machine learning approaches offer the advantage of automating the detection process by learning patterns and characteristics of DDoS attacks from historical data. Researchers have explored various machine learning algorithms such as K-Nearest Neighbours (KNN), Support Vector Machine (SVM), Random Forest (RF), and Naïve Bayes to classify and detect DDoS attacks. These algorithms leverage features extracted from network traffic data, including packet size, packet delay patterns, and traffic behaviour, to differentiate between normal and malicious traffic.

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使用机器学习技术检测 DDoS 攻击的比较综述

互联网的快速发展和对数字基础设施的日益依赖给网络安全带来了巨大挑战。在其他各种攻击中，分布式拒绝服务（DDoS）攻击已成为最具破坏性和最常见的威胁之一。这些攻击通过大量恶意流量压垮网络基础设施，从而破坏或减缓网络服务。为了有效识别和缓解 DDoS 攻击，机器学习技术已被广泛应用于入侵检测系统中。机器学习方法通过从历史数据中学习 DDoS 攻击的模式和特征，实现了检测过程的自动化。研究人员探索了各种机器学习算法，如 K-Nearest Neighbours (KNN)、Support Vector Machine (SVM)、Random Forest (RF) 和 Naïve Bayes，用于对 DDoS 攻击进行分类和检测。这些算法利用从网络流量数据（包括数据包大小、数据包延迟模式和流量行为）中提取的特征来区分正常流量和恶意流量。

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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Malaysian Journal of Science and Advanced Technology

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