An Intrusion Detection Model Based on a Residual Memory Convolutional Neural Network with Attention Mechanism

Yuankai Liu, Feng Guo, Qian Zhao, Chuankun Wu
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Abstract

As the utilization of IoT devices becomes more widespread, the variety of attacks targeting these devices is also increasing. Traditional intrusion detection systems in IoT environments often struggle to effectively recognize the diverse types of attacks. Therefore, this study proposes a Residual Memory Convolutional Neural Network (RMCNN) model incorporating an attention mechanism, aimed at improving the accuracy and efficiency of multi-class attack detection in IoT environments. The model begins by extracting spatial features from traffic data through Convolutional Neural Network (CNN) layers, and then captures dynamic changes in time series data using Gated Recurrent Unit (GRU). Subsequently, a multi-head attention mechanism is employed to reinforce focus on critical information. Finally, the outputs from the GRU are combined with those from the multi-head attention mechanism via residual connections, enhancing the model’s learning capabilities and improving the recognition accuracy of various attack types. Verified through experiments on the CICIOT2023 dataset, the model achieved an F1 score of 97.29%, indicating significant improvements in the detection performance of multi-class attacks and confirming its applicability and effectiveness in the field of IoT security.
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基于带有注意机制的残差记忆卷积神经网络的入侵检测模型
随着物联网设备的使用越来越广泛,针对这些设备的各种攻击也越来越多。物联网环境中的传统入侵检测系统往往难以有效识别各种类型的攻击。因此,本研究提出了一种包含注意力机制的残差记忆卷积神经网络(RMCNN)模型,旨在提高物联网环境中多类攻击检测的准确性和效率。该模型首先通过卷积神经网络(CNN)层从流量数据中提取空间特征,然后使用门控递归单元(GRU)捕捉时间序列数据的动态变化。随后,采用多头关注机制,加强对关键信息的关注。最后,GRU 的输出通过残差连接与多头注意力机制的输出相结合,从而增强了模型的学习能力,提高了对各种攻击类型的识别准确率。通过在 CICIOT2023 数据集上的实验验证,该模型的 F1 得分为 97.29%,表明多类攻击的检测性能有了显著提高,证实了其在物联网安全领域的适用性和有效性。
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