A Graph Autoencoder-based Anomaly Detection Method for Attributed Networks

Q3 Arts and Humanities

Icon Pub Date : 2023-03-01 DOI:10.1109/ICNLP58431.2023.00067

Kunpeng Zhang, Guangyue Lu, Yuxin Li, Cai Xu

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引用次数: 0

Abstract

Anomaly detection in attributed networks aims to find anomalous nodes in the network that differ from the behavior pattern of most nodes, and graph neural network provide a way to use fused structural and attribute information. However, existing methods based on Graph Convolutional Network (GCN) detection do not consider the over-smoothing phenomenon of GCN due to the stacks of network layers, which causes significant performance deterioration. To address the above problems, we propose a graph autoencoder-based anomaly detection method for attributed networks: Residual Graph Autoencoder (Res-GAE), by which the performance is effectively improved. Res-GAE contains an encoder and two decoders. More specifically, the encoder consists of a GCN and a residual network is utilized to learn the network representation. The decoders are designed to reconstruct the network structure and node attributes respectively. After that, the objective function is used to analyze the reconstruction error to generate the anomaly score ranking, to realize anomaly detection. Extensive experiments on the three datasets (BlogCatalog, Flickr, ACM) demonstrate that the proposed method has the significant improvement compared with other baseline methods.

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基于图自编码器的属性网络异常检测方法

属性网络中的异常检测旨在发现网络中与大多数节点行为模式不同的异常节点，而图神经网络提供了一种融合结构信息和属性信息的方法。然而，现有的基于图卷积网络(Graph Convolutional Network, GCN)的检测方法没有考虑GCN由于网络层的堆叠而产生的过度平滑现象，导致性能显著下降。针对上述问题，本文提出了一种基于图自编码器的属性网络异常检测方法:残差图自编码器(Res-GAE)，有效地提高了检测性能。Res-GAE包含一个编码器和两个解码器。更具体地说，编码器由GCN和残差网络组成，并利用残差网络学习网络表示。解码器分别用于重构网络结构和节点属性。然后利用目标函数对重构误差进行分析，生成异常评分排序，实现异常检测。在三个数据集(BlogCatalog, Flickr, ACM)上进行的大量实验表明，与其他基线方法相比，该方法具有显著的改进。

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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来源期刊

Icon Arts and Humanities-History and Philosophy of Science

CiteScore

0.30

自引率

0.00%

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