Purity Skeleton Dynamic Hypergraph Neural Network

IF 5.5 2区 计算机科学 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
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Abstract

Recently, in the field of Hypergraph Neural Networks (HGNNs), the effectiveness of dynamic hypergraph construction has been validated, which aims to reduce structural noise within the hypergraph through embeddings. However, the existing dynamic construction methods fail to notice the reduction of information contained in the hypergraphs during dynamic updates. This limitation undermines the quality of hypergraphs. Moreover, dynamic hypergraphs are constructed from graphs. Several key nodes play a crucial role in graph, but they are overlooked in hypergraphs. In this paper, we propose a Purity Skeleton Dynamic Hypergraph Neural Network (PS-DHGNN) to address the above issues. Firstly, we leverage purity skeleton method to dynamically construct hypergraphs via the fusion embeddings of features and topology simultaneously. This method effectively reduces structural noise and prevents the loss of information. Secondly, we employ an incremental training strategy, which implements a batch training strategy based on the importance of nodes. The key nodes, as the skeleton of hypergraph, are still highly valued. In addition, we utilize a novel loss function for learning structure information between hypergraph and graph. We conduct extensive experiments on node classification and clustering tasks, which demonstrate that our PS-DHGNN outperforms state-of-the-art methods. Note on real-world traffic flow datasets, PS-DHGNN demonstrates excellent performance, which is highly meaningful in practice.

Abstract Image

纯净骨架动态超图神经网络
最近,在超图神经网络(HGNN)领域,动态超图构建的有效性得到了验证,其目的是通过嵌入减少超图中的结构噪声。然而,现有的动态构建方法未能注意到超图在动态更新过程中所含信息的减少。这一局限性损害了超图的质量。此外,动态超图是从图中构建的。图中有几个关键节点起着至关重要的作用,但它们在超图中却被忽视了。本文提出了纯度骨架动态超图神经网络(PS-DHGNN)来解决上述问题。首先,我们利用纯度骨架方法,同时通过特征和拓扑的融合嵌入来动态构建超图。这种方法能有效减少结构噪声,防止信息丢失。其次,我们采用增量训练策略,根据节点的重要性实施批量训练策略。关键节点作为超图的骨架,其价值仍然很高。此外,我们还利用一种新的损失函数来学习超图和图之间的结构信息。我们在节点分类和聚类任务上进行了大量实验,结果表明我们的 PS-DHGNN 优于最先进的方法。在现实世界的交通流数据集上,PS-DHGNN 表现出了卓越的性能,这在实践中非常有意义。
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来源期刊
Neurocomputing
Neurocomputing 工程技术-计算机:人工智能
CiteScore
13.10
自引率
10.00%
发文量
1382
审稿时长
70 days
期刊介绍: Neurocomputing publishes articles describing recent fundamental contributions in the field of neurocomputing. Neurocomputing theory, practice and applications are the essential topics being covered.
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