Graph Structure and Isomorphism Learning: A Survey

Research and Development on Information and Communication Technology Pub Date : 2022-03-13 DOI:10.32913/mic-ict-research.v2022.n1.1028

Tuyen-Thanh-Thi Ho

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Abstract

With the great success of artificial intelligence in recent years, graph learning is gaining attention from both academia and industry [1, 2]. The power of graph data is its capacity to represent numerous complicated structures in a broad spectrum of application domains including protein networks, social networks, food webs, molecular structures, knowledge graphs, sentence dependency trees, and scene graphs of images. However, designing an effective graph learning architecture on arbitrary graphs is still an on-going research topic because of two challenges of learning complex topological structures of graphs and their nature of isomorphism. In this work, we aim to summarize and discuss the latest methods in graph learning, with special attention to two aspects of structure learning and permutation invariance learning. The survey starts by reviewing basic concepts on graph theory and graph signal processing. Next, we provide systematic categorization of graph learning methods to address two aspects above respectively. Finally, we conclude our paper with discussions and open issues in research and practice.

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图结构与同构学习:综述

随着近年来人工智能的巨大成功，图学习越来越受到学术界和工业界的关注[1,2]。图数据的强大之处在于它能够在广泛的应用领域中表示许多复杂的结构，包括蛋白质网络、社会网络、食物网、分子结构、知识图、句子依赖树和图像的场景图。然而，由于学习图的复杂拓扑结构和图的同构性，设计一种有效的图学习架构仍然是一个持续的研究课题。在这项工作中，我们旨在总结和讨论图学习的最新方法，特别关注结构学习和排列不变性学习两个方面。本文首先回顾图论和图信号处理的基本概念。接下来，我们对图学习方法进行了系统的分类，分别解决了上述两个方面的问题。最后，我们总结了研究和实践中的讨论和有待解决的问题。

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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Research and Development on Information and Communication Technology

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