Revisiting Adversarial Attacks on Graph Neural Networks for Graph Classification
This addresses the vulnerability of graph neural networks to adversarial attacks in graph classification, which is incremental as it builds on existing methods to handle both structure and feature perturbations.
The paper tackles the challenge of generating adversarial examples for graph classification by proposing a framework that manipulates both graph structure and node features using global-to-local information, achieving effective attacks on four state-of-the-art models across six benchmarks.
Graph neural networks (GNNs) have achieved tremendous success in the task of graph classification and its diverse downstream real-world applications. Despite the huge success in learning graph representations, current GNN models have demonstrated their vulnerability to potentially existent adversarial examples on graph-structured data. Existing approaches are either limited to structure attacks or restricted to local information, urging for the design of a more general attack framework on graph classification, which faces significant challenges due to the complexity of generating local-node-level adversarial examples using the global-graph-level information. To address this "global-to-local" attack challenge, we present a novel and general framework to generate adversarial examples via manipulating graph structure and node features. Specifically, we make use of Graph Class Activation Mapping and its variant to produce node-level importance corresponding to the graph classification task. Then through a heuristic design of algorithms, we can perform both feature and structure attacks under unnoticeable perturbation budgets with the help of both node-level and subgraph-level importance. Experiments towards attacking four state-of-the-art graph classification models on six real-world benchmarks verify the flexibility and effectiveness of our framework.