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Node Classification on Non-Homophilic (Heterophilic) Graphs

There exists a non-trivial set of graphs where graph-aware models underperform their corresponding graph-agnostic models, e.g. SGC and GCN underperform MLP with 1 layer and 2 layers. Although still controversial, people believe the performance degradation results from heterophily, i.e. there exist much more inter-class edges than inner-class edges. This task aims to evaluate models designed for non-homophilic (heterophilic) datasets.

Papers

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TitleStatusHype
Edge Directionality Improves Learning on Heterophilic GraphsCode1
GCNH: A Simple Method For Representation Learning On Heterophilous GraphsCode1
Graph Neural Networks with Learnable and Optimal Polynomial BasesCode1
Clenshaw Graph Neural NetworksCode1
Revisiting Heterophily For Graph Neural NetworksCode1
Finding Global Homophily in Graph Neural Networks When Meeting HeterophilyCode1
Neural Sheaf Diffusion: A Topological Perspective on Heterophily and Oversmoothing in GNNsCode1
Deformable Graph Convolutional NetworksCode1
Large Scale Learning on Non-Homophilous Graphs: New Benchmarks and Strong Simple MethodsCode1
BernNet: Learning Arbitrary Graph Spectral Filters via Bernstein ApproximationCode1
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