Beschreibung:
<jats:p>In recent years, deep learning theories, such as Recurrent Neural Networks (RNN) and Convolutional Neural Networks (CNN), have been applied as effective methods for intrusion detection in the vehicle CAN network. However, the existing RNNs realize detection by establishing independent models for each CAN ID, which are unable to learn the potential characteristics of different IDs well, and have relatively complicated model structure and high calculation time cost. CNNs can achieve rapid detection by learning the characteristics of normal and attack CAN ID sequences and exhibit good performance, but the current methods do not locate abnormal points in the sequence. To solve the above problems, this paper proposes an in-vehicle CAN network intrusion detection model based on Temporal Convolutional Network, which is called Temporal Convolutional Network-Based Intrusion Detection System (TCNIDS). In TCNIDS, the CAN ID is serialized into a natural language sequence and a word vector is constructed for each CAN ID through the word embedding coding method to reduce the data dimension. At the same time, TCNIDS uses the parameterized Relu method to improve the temporal convolutional network, which can better learn the potential features of the normal sequence. The TCNIDS model has a simple structure and realizes the point anomaly detection at the message level by predicting the future sequence of normal CAN data and setting the probability strategy. The experimental results show that the overall detection rate, false alarm rate, and accuracy rate of TCNIDS under fuzzy attack, spoofing attack, and DoS attack are higher than those of the traditional temporal convolutional network intrusion detection model.</jats:p>