A continual encrypted traffic classification algorithm based on WGAN

Third International Seminar on Artificial Intelligence, Networking, and Information Technology Pub Date : 2023-02-22 DOI:10.1117/12.2667229

Xiuli Ma, Wenbin Zhu, Yanliang Jin, Yuan Gao

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Abstract

With the constant updating of applications and the emergence of various encryption technologies, a large amount of new encrypted network traffic is generated every day. Therefore, it is a challenging task to achieve continual learning of encrypted traffic. Existing encrypted traffic classification techniques can only handle a fixed number of traffic classes, which is not applicable to real network environments. In this paper, we proposed a continual encrypted traffic classification method based on WGAN, called CETC. The method takes advantage of the powerful data generation capabilities of WGAN to model the data distribution of encrypted traffic. When learning from a new traffic class, the samples from the old class is generated by WGAN to train the new classifier. We use the ISCX VPN-nonVPN dataset to test the performance of CETC. Experimental results show that WGAN can generate high-quality samples of encrypted traffic and the accuracy of CETC is higher than 93%. With its efficient and continual learning capability, CETC can be applied to various encrypted traffic detection and management systems.

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基于WGAN的连续加密流分类算法

随着应用程序的不断更新和各种加密技术的出现，每天都会产生大量新的加密网络流量。因此，如何实现对加密流量的持续学习是一项具有挑战性的任务。现有的加密流分类技术只能处理固定数量的流分类，不适合实际网络环境。本文提出了一种基于WGAN的连续加密流量分类方法CETC。该方法利用WGAN强大的数据生成能力，对加密流量的数据分布进行建模。当从一个新的流量类中学习时，WGAN从旧的流量类中生成样本来训练新的分类器。我们使用ISCX vpn -非vpn数据集来测试CETC的性能。实验结果表明，WGAN能够生成高质量的加密流量样本，CETC的准确率高于93%。CETC具有高效和持续学习的能力，可应用于各种加密流量检测和管理系统。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Third International Seminar on Artificial Intelligence, Networking, and Information Technology

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