An Efficient Network Intrusion Detection Model Based on Temporal Convolutional Networks

Abstract

Network intrusion detection plays an important role in the network security, but the increasingly complex network environment brings a serious challenge to intrusion detection. Although the existing efficient Convolutional Neural Network (CNN)-based network traffic intrusion detection models do not require manual design of the traffic features, but they do not make full use of the structured information of network traffic. In this paper, we propose a novel network intrusion detection model based on Temporal Convolutional Networks (TCN), it extracts the key features in the dataset through exploiting the characteristics of byte sequence in the network traffic packets. Compared with traditional recurrent neural networks (RNN), TCN shows a better performance in sequence modeling tasks and it can process the sequences in parallel for faster training. To solve the problem of poor detection accuracy caused by the “death” of some neurons on ReLU during the training stage, we use the ELU activation function in the TCN instead of ReLU. Finally, we compare our proposed TCN-based intrusion detection model with the state-of-the-art methods on the CTU public dataset, and the experimental results show that the use of TCN can obtain higher performance within less time consumption, in terms of higher average accuracy, higher average recall and higher average F1-measure.