NF-GNN: Network Flow Graph Neural Networks for Malware Detection and Classification

33rd International Conference on Scientific and Statistical Database Management Pub Date : 2021-03-05 DOI:10.1145/3468791.3468814

Julian Busch, Anton Kocheturov, Volker Tresp, T. Seidl

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引用次数: 23

Abstract

Malicious software (malware) poses an increasing threat to the security of communication systems as the number of interconnected mobile devices increases exponentially. While some existing malware detection and classification approaches successfully leverage network traffic data, they treat network flows between pairs of endpoints independently and thus fail to leverage rich communication patterns present in the complete network. Our approach first extracts flow graphs and subsequently classifies them using a novel edge feature-based graph neural network model. We present three variants of our base model, which support malware detection and classification in supervised and unsupervised settings. We evaluate our approach on flow graphs that we extract from a recently published dataset for mobile malware detection that addresses several issues with previously available datasets. Experiments on four different prediction tasks consistently demonstrate the advantages of our approach and show that our graph neural network model can boost detection performance by a significant margin.

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用于恶意软件检测和分类的网络流图神经网络

随着互联移动设备数量呈指数级增长，恶意软件对通信系统安全的威胁日益严重。虽然一些现有的恶意软件检测和分类方法成功地利用了网络流量数据，但它们独立地处理端点对之间的网络流，因此无法利用完整网络中存在的丰富通信模式。我们的方法首先提取流图，然后使用一种新的基于边缘特征的图神经网络模型对它们进行分类。我们提出了基础模型的三种变体，它们支持在监督和无监督设置下的恶意软件检测和分类。我们评估了从最近发布的移动恶意软件检测数据集中提取的流程图方法，该数据集解决了以前可用数据集的几个问题。在四种不同预测任务上的实验一致地证明了我们的方法的优势，并表明我们的图神经网络模型可以显著提高检测性能。

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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33rd International Conference on Scientific and Statistical Database Management

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