Sybil Detection using Graph Neural Networks

Stuart Heeb, Andreas Plesner, Roger Wattenhofer
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Abstract

This paper presents SYBILGAT, a novel approach to Sybil detection in social networks using Graph Attention Networks (GATs). Traditional methods for Sybil detection primarily leverage structural properties of networks; however, they tend to struggle with a large number of attack edges and are often unable to simultaneously utilize both known Sybil and honest nodes. Our proposed method addresses these limitations by dynamically assigning attention weights to different nodes during aggregations, enhancing detection performance. We conducted extensive experiments in various scenarios, including pretraining in sampled subgraphs, synthetic networks, and networks under targeted attacks. The results show that SYBILGAT significantly outperforms the state-of-the-art algorithms, particularly in scenarios with high attack complexity and when the number of attack edges increases. Our approach shows robust performance across different network models and sizes, even as the detection task becomes more challenging. We successfully applied the model to a real-world Twitter graph with more than 269k nodes and 6.8M edges. The flexibility and generalizability of SYBILGAT make it a promising tool to defend against Sybil attacks in online social networks with only structural information.
利用图神经网络检测假冒者
本文介绍了 SYBILGAT,这是一种利用图注意网络(GAT)在社交网络中进行假冒者检测的新方法。传统的假冒者检测方法主要利用网络的结构特性;然而,这些方法往往难以应对大量的攻击边,而且往往无法同时利用已知的假冒者节点和诚实节点。我们提出的方法通过在聚合过程中动态分配不同节点的关注权重来解决这些局限性,从而提高检测性能。我们在各种场景下进行了广泛的实验,包括在采样子图、合成网络和目标攻击下的网络中进行预训练。结果表明,SYBILGAT 的性能明显优于最先进的算法,尤其是在攻击复杂度较高和攻击边数量增加的情况下。即使检测任务变得更具挑战性,我们的方法也能在不同的网络模型和规模下表现出稳健的性能。我们成功地将该模型应用于一个拥有超过 269k 个节点和 680 万条边的真实 Twitter 图。SYBILGAT 的灵活性和通用性使其成为在仅有结构信息的在线社交网络中防御仿冒攻击的理想工具。
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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