AI-Based Intrusion Detection for a Secure Internet of Things (IoT)

IF 4.1 3区 计算机科学 Q1 COMPUTER SCIENCE, INFORMATION SYSTEMS Journal of Network and Systems Management Pub Date : 2024-06-09 DOI:10.1007/s10922-024-09829-5
Reham Aljohani, Anas Bushnag, Ali Alessa
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Abstract

The increasing use of intelligent devices connected to the internet has contributed to the introduction of a new paradigm: the Internet of Things (IoT). The IoT is a set of devices connected via the internet that cooperate to achieve a specific goal. Smart cities, smart airports, smart transportation, smart homes, and many applications in the medical and educational fields all use the IoT. However, one major challenge is detecting malicious intrusions on IoT networks. Intrusion Detection Systems (IDSs) should detect these types of intrusions. This work proposes an effective model for detecting malicious IoT activities using machine learning techniques. The ToN-IoT dataset, which consists of seven connected devices (subdatasets), is used to construct an IoT network. The proposed model is a multilevel classification model. The first level distinguishes between attack and normal network activities. The second level is to classify the types of detected attacks. The experimental results prove the effectiveness of the proposed model in terms of time and classification performance metrics. The proposed model and seven baseline techniques in the literature are compared. The proposed model outperformed the baseline techniques in all subdatasets except for the Garage Door dataset.

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基于人工智能的入侵检测,实现安全的物联网 (IoT)
与互联网相连的智能设备的使用日益增多,推动了一种新模式的出现:物联网(IoT)。物联网是一组通过互联网连接的设备,它们通过合作来实现特定的目标。智能城市、智能机场、智能交通、智能家居以及医疗和教育领域的许多应用都在使用物联网。然而,检测物联网网络上的恶意入侵是一项重大挑战。入侵检测系统(IDS)应能检测到这些类型的入侵。这项工作提出了一种利用机器学习技术检测恶意物联网活动的有效模型。ToN-IoT 数据集由七个连接设备(子数据集)组成,用于构建物联网网络。所提出的模型是一个多级分类模型。第一级区分攻击和正常网络活动。第二层是对检测到的攻击类型进行分类。实验结果证明了所提模型在时间和分类性能指标方面的有效性。实验中对所提出的模型和文献中的七种基线技术进行了比较。除了 "车库门 "数据集之外,所提出的模型在所有子数据集中的表现都优于基线技术。
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来源期刊
CiteScore
7.60
自引率
16.70%
发文量
65
审稿时长
>12 weeks
期刊介绍: Journal of Network and Systems Management, features peer-reviewed original research, as well as case studies in the fields of network and system management. The journal regularly disseminates significant new information on both the telecommunications and computing aspects of these fields, as well as their evolution and emerging integration. This outstanding quarterly covers architecture, analysis, design, software, standards, and migration issues related to the operation, management, and control of distributed systems and communication networks for voice, data, video, and networked computing.
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