利用注意力补充嵌入融合进行结构增强型异构图表示学习

IF 1 4区 计算机科学 Q4 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE International Journal of Uncertainty Fuzziness and Knowledge-Based Systems Pub Date : 2024-05-27 DOI:10.1142/s0218488524500132
Phu Pham
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引用次数: 0

摘要

近年来,异构网络/图表示学习/嵌入(HNE)引起了多学科研究界的极大关注。HNE 在各种网络数据分析和挖掘任务中表现出了卓越的性能。事实上,现实世界中多个领域的大多数信息网络都可以建模为异构信息网络(HIN)。因此,基于 HNE 的技术可以从给定的信息网络中充分捕捉丰富的结构和语义潜在特征,以促进不同任务驱动的学习任务。与以往传统的基于同构网络/图的嵌入技术相比,这被认为是基于 HNE 方法的基本成功之处。然而,最近的一些研究也表明,通过图神经网络(GNN)进行异构网络/图建模和嵌入通常并不可靠。这一挑战的根源在于,现实世界中的大多数异构网络都被认为是不完整的,通常包含大量的特征噪声。因此,最近有人提出了多种尝试来克服这一局限性。在这种方法中,基于元路径的异构图结构潜特征和基于 GNN 的参数在嵌入过程中被联合学习和优化。然而,这种集成 GNN 和异构图结构(HGS)的学习方法仍然面临着一个挑战,即如何有效地将基于 GNN 和 HGS 的不同图结构潜特征参数化并融合到更好的任务驱动型友好降噪嵌入空间中。因此,我们在本文中提出了一种新颖的注意力补充异构图结构嵌入方法,即 AGSE:AGSE。我们提出的 AGSE 模型不仅能实现丰富的异构结构和基于 GNN 的聚合节点表示,还能将已实现的节点嵌入转化为降噪和任务驱动友好的嵌入空间。在用于节点分类任务的基准异构网络数据集上进行的广泛实验表明,与最先进的网络嵌入基线相比,我们提出的 AGSE 模型非常有效。
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A Structure-Enhanced Heterogeneous Graph Representation Learning with Attention-Supplemented Embedding Fusion

In recent years, heterogeneous network/graph representation learning/embedding (HNE) has drawn tremendous attentions from research communities in multiple disciplines. HNE has shown its outstanding performances in various networked data analysis and mining tasks. In fact, most of real-world information networks in multiple fields can be modelled as the heterogeneous information networks (HIN). Thus, the HNE-based techniques can sufficiently capture rich-structured and semantic latent features from the given information network in order to facilitate for different task-driven learning tasks. This is considered as fundamental success of HNE-based approach in comparing with previous traditional homogeneous network/graph based embedding techniques. However, there are recent studies have also demonstrated that the heterogeneous network/graph modelling and embedding through graph neural network (GNN) is not usually reliable. This challenge is original come from the fact that most of real-world heterogeneous networks are considered as incomplete and normally contain a large number of feature noises. Therefore, multiple attempts have proposed recently to overcome this limitation. Within this approach, the meta-path-based heterogeneous graph-structured latent features and GNN-based parameters are jointly learnt and optimized during the embedding process. However, this integrated GNN and heterogeneous graph structure (HGS) learning approach still suffered a challenge of effectively parameterizing and fusing different graph-structured latent features from both GNN- and HGS-based sides into better task-driven friendly and noise-reduced embedding spaces. Therefore, in this paper we proposed a novel attention-supplemented heterogeneous graph structure embedding approach, called as: AGSE. Our proposed AGSE model supports to not only achieve the combined rich heterogeneous structural and GNN-based aggregated node representations but also transform achieved node embeddings into noise-reduced and task-driven friendly embedding space. Extensive experiments in benchmark heterogeneous networked datasets for node classification task showed the effectiveness of our proposed AGSE model in comparing with state-of-the-art network embedding baselines.

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来源期刊
CiteScore
2.70
自引率
0.00%
发文量
48
审稿时长
13.5 months
期刊介绍: The International Journal of Uncertainty, Fuzziness and Knowledge-Based Systems is a forum for research on various methodologies for the management of imprecise, vague, uncertain or incomplete information. The aim of the journal is to promote theoretical or methodological works dealing with all kinds of methods to represent and manipulate imperfectly described pieces of knowledge, excluding results on pure mathematics or simple applications of existing theoretical results. It is published bimonthly, with worldwide distribution to researchers, engineers, decision-makers, and educators.
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