使用软件定义网络(SDN)启用架构保护物联网环境的可扩展和稳健的入侵检测系统

T. M. Alshammari, Faeiz Alserhani
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引用次数: 0

摘要

–由于具有降低成本和先进传感能力的智能设备的快速发展,物联网的采用最近获得了很大的吸引力。然而,此类物联网设备更容易受到攻击或破坏。此外,基于签名和规则的传统安全机制不再能够检测复杂的入侵。在物联网背景下,在系统架构的控制平面中部署智能技术在识别各种攻击(包括未知攻击)方面发挥着至关重要的作用。在本研究中,提出了一种基于软件定义网络(SDN)的物联网异常入侵检测系统来检测异常行为和攻击。研究了五种不同的机器学习技术,包括支持向量机、k近邻、逻辑回归、随机森林和决策树。基于机器学习模型设计了一个可扩展、鲁棒的入侵检测系统,并将其放置在SDN控制器上,以观察和分类物联网设备的行为。通过进行几个实验,选择了一个基准数据集ToN-IoT来测试和评估ML模型。研究结果表明,基于ML的入侵检测系统可以提供一个可靠的安全系统。特别地,随机森林技术优于其他研究的ML算法。
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Scalable and Robust Intrusion Detection System to Secure the IoT Environments using Software Defined Networks (SDN) Enabled Architecture
– Due to the rapid development of smart devices with reduced costs and advanced sensing capabilities, the adoption of the internet of things has recently gained a lot of traction. However, such IoT devices are more vulnerable to being attacked or compromised. Moreover, traditional security mechanisms based on signatures and rules are no longer capable of detecting sophisticated intrusions. In the IoT context, the deployment of intelligent techniques in the control plane of the system architecture plays a vital role in identifying various attacks, including unknown ones. In this study, a software defined network (SDN)-based IoT anomaly intrusion detection system is proposed to detect abnormal behaviors and attacks. Five different machine learning techniques are investigated, including support vector machines, k-nearest neighbor, logistic regression, random forest, and decision trees. A scalable and robust intrusion detection system is designed based on machine learning models and placed at the SDN controller to observe and classify the behavior of IoT devices. A benchmark dataset, ToN-IoT, has been selected to test and evaluate the ML models by conducting several experiments. The obtained results have demonstrated that ML-based IDS can provide a reliable security system. Particularly, the random forest technique outperformed the other studied ML algorithms.
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来源期刊
International Journal of Computer Networks and Applications
International Journal of Computer Networks and Applications Computer Science-Computer Science Applications
CiteScore
2.30
自引率
0.00%
发文量
40
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