一种高效的物联网入侵检测深度学习方法

Jinkun Cao, Liwei Lin, Ruhui Ma, Haibing Guan, Mengke Tian, Y. Wang
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引用次数: 2

摘要

随着物联网(IoT)的快速发展,网络安全挑战越来越复杂,针对网络的入侵攻击规模逐渐增大。因此,研究人员提出了入侵检测系统,并不断设计更有效的系统来防御攻击。要考虑的一个问题是使用有限的计算能力来有效地处理复杂的网络数据。本文以AWID数据集为例,提出了一种有效的数据处理方法来减轻冗余数据带来的干扰,并设计了一个轻量级的基于深度学习的模型来分析和预测数据类别。最后,我们在AWID数据集上实现了99.77%的总体准确率和97.95%的攻击准确率,其中注入攻击的检测率为99.98%。我们的模型计算开销低,训练后的响应时间快,保证了应用于物联网中计算能力较弱的边缘节点的可行性。
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An Efficient Deep Learning Approach To IoT Intrusion Detection
With the rapid development of the Internet of Things (IoT), network security challenges are becoming more and more complex, and the scale of intrusion attacks against the network is gradually increasing. Therefore, researchers have proposed Intrusion Detection Systems and constantly designed more effective systems to defend against attacks. One issue to consider is using limited computing power to process complex network data efficiently. In this paper, we take the AWID dataset as an example, propose an efficient data processing method to mitigate the interference caused by redundant data and design a lightweight deep learning-based model to analyze and predict the data category. Finally, we achieve an overall accuracy of 99.77% and an accuracy of 97.95% for attacks on the AWID dataset, with a detection rate of 99.98% for the injection attack. Our model has low computational overhead and a fast response time after training, ensuring the feasibility of applying to edge nodes with weak computational power in the IoT.
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