Robust Node Classification on Graph Data with Graph and Label Noise

Yonghua Zhu; Lei Feng; Zhenyun Deng; Yang Chen; Robert Amor; Michael Witbrock

doi:10.1609/aaai.v38i15.29668

Authors

Yonghua Zhu NAOInstitute, University of Auckland, NZ School of Computer Science, University of Auckland, NZ
Lei Feng School of Computer Science and Engineering, Nanyang Technological University, Singapore
Zhenyun Deng Department of Computer Science, University of Cambridge, UK
Yang Chen NAOInstitute, University of Auckland, NZ School of Computer Science, University of Auckland, NZ
Robert Amor School of Computer Science, University of Auckland, NZ
Michael Witbrock NAOInstitute, University of Auckland, NZ School of Computer Science, University of Auckland, NZ

DOI:

https://doi.org/10.1609/aaai.v38i15.29668

Keywords:

ML: Graph-based Machine Learning, ML: Deep Learning Algorithms, ML: Representation Learning, ML: Semi-Supervised Learning

Abstract

Current research for node classification focuses on dealing with either graph noise or label noise, but few studies consider both of them. In this paper, we propose a new robust node classification method to simultaneously deal with graph noise and label noise. To do this, we design a graph contrastive loss to conduct local graph learning and employ self-attention to conduct global graph learning. They enable us to improve the expressiveness of node representation by using comprehensive information among nodes. We also utilize pseudo graphs and pseudo labels to deal with graph noise and label noise, respectively. Furthermore, We numerically validate the superiority of our method in terms of robust node classification compared with all comparison methods.

Robust Node Classification on Graph Data with Graph and Label Noise

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