Graph representation learning has attracted tremendous attention due to its remarkable performance in many real-world applications. However, prevailing supervised graph representation learning models for specific tasks often suffer from label sparsity issue as data labeling is always time and resource consuming. In light of this, few-shot learning on graphs (FSLG), which combines the strengths of graph representation learning and few-shot learning together, has been proposed to tackle the performance degradation in face of limited annotated data challenge. There have been many studies working on FSLG recently. In this paper, we comprehensively survey these work in the form of a series of methods and applications. Specifically, we first introduce FSLG challenges and bases, then categorize and summarize existing work of FSLG in terms of three major graph mining tasks at different granularity levels, i.e., node, edge, and graph. Finally, we share our thoughts on some future research directions of FSLG. The authors of this survey have contributed significantly to the AI literature on FSLG over the last few years.
翻译:图表的学习由于在许多现实世界应用中的杰出表现而引起极大关注,然而,由于数据标签总是耗时和资源消耗,目前受到监督的具体任务图表的学习模式往往会因标签宽度问题而受到影响。有鉴于此,在图表(FSLG)上略微学习,将图形代表学习的长处和少图学习结合起来,以面对有限的附加说明的数据挑战,解决业绩退化问题。最近对FSLG进行了许多研究。在本文件中,我们以一系列方法和应用程序的形式全面调查了这些工作。具体地说,我们首先介绍了FSLG的挑战和基础,然后对FSLG在不同微粒层次(即节点、边缘和图表)的三大图表采矿任务进行了分类和总结。最后,我们同意我们对FSLG未来一些研究方向的想法。在过去几年中,这项调查的作者对关于FSLG的独立文献作出了重大贡献。
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