Timezone: »

How Powerful is Implicit Denoising in Graph Neural Networks
Songtao Liu · Rex Ying · Hanze Dong · Lu Lin · Jinghui Chen · Dinghao Wu
Event URL: https://openreview.net/forum?id=51aDG6Op46q »

Graph Neural Networks (GNNs), which aggregate features from neighbors, are widely used for processing graph-structured data due to their powerful representation learning capabilities. It is generally believed that GNNs can implicitly remove feature noises and thus still obtain generalizable models. This point of view motivates some existing works to derive GNN models from the graph signal denoising (GSD) problem. However, few works have rigorously analyzed the implicit denoising effect in graph neural networks. In this work, we conduct a comprehensive theoretical study and analyze when and why implicit denoising happens in GNNs. Our theoretical analysis suggests that the implicit denoising largely depends on the connectivity and size of the graph, as well as the GNN architectures. Moreover, extensive empirical evaluations verify our theoretical analyses and the effectiveness of GNNs in eliminating noise in the feature matrix compared with Multi-Layer Perceptron (MLP). Moreover, motivated by adversarial machine learning in improving the robustness of neural networks and the correlation of node features and graph structure in GSD, we propose the adversarial graph signal denoising (AGSD) problem. By solving such a problem, we derive a robust graph convolution, where the smoothness of the node representations and the implicit denoising effect can be enhanced.

Author Information

Songtao Liu (The Pennsylvania State University)
Rex Ying (Yale University)
Hanze Dong (The Hong Kong University of Science and Technology)
Lu Lin (Penn State University)
Jinghui Chen (Penn State University)
Dinghao Wu (Pennsylvania State University)

More from the Same Authors