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Code for ECML-PKDD 2022 paper "GraphMixup: Improving Class-Imbalanced Node Classification by Reinforcement Mixup and Self-supervised Context Prediction"

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GraphMixup

This is a PyTorch implementation of the GraphMixup, and the code includes the following modules:

  • Dataset Loader (Cora, BlagCatalog, and Wiki-CS)

  • Various Architectures (GCN, SAGE, GAT, and SEM)

  • Five compared baselines (Origin, Over-Sampling, Re-weight, SMOTE, and Embed-SMOTE)

  • Training paradigm (joint learning, pre-training, and fine-tuning) for node classification on three datasets

  • Visualization and evaluation metrics

Main Requirements

  • networkx==2.5
  • numpy==1.19.2
  • scikit-learn==0.24.1
  • scipy==1.5.2
  • torch==1.6.0

Description

  • train.py

    • train() -- Train a new model for node classification task on the Cora, BlagCatalog, and Wiki-CS datasets
    • test() -- Test the learned model for node classification task on the Cora, BlagCatalog, and Wiki-CS datasets
    • save_model() -- Save the pre-trained model
    • load_model() -- Load model for fine-tuning
  • data_load.py

    • load_cora() -- Load Cora Dataset
    • load_BlogCatalog() -- Load BlogCatalog Dataset
    • load_wiki_cs() -- Load Wiki-CS Dataset
  • models.py

    • GraphConvolution() -- GCN Layer
    • SageConv() -- SAGE Layer
    • SemanticLayer() -- Semantic Feature Layer
    • GraphAttentionLayer() -- GAT Layer
    • PairwiseDistance() -- Perform self-supervised Local-Path Prediction
    • DistanceCluster() -- Perform self-supervised Global-Path Prediction
  • utils.py

    • src_upsample() -- Perform interpolation in the input space
    • src_smote() -- Perform interpolation in the embedding space
    • mixup() -- Perform mixup in the semantic relation space
  • QLearning.py

    • GNN_env() -- Calculate rewards, perform actions, and update states
    • isTerminal() -- Determine whether the termination conditions have been met

Running the code

  1. Install the required dependency packages

  2. To get the results on a specific dataset, first run with proper hyperparameters to perform pre-training

python train.py --dataset data_name --setting pre-train

where the data_name is one of the 3 datasets (CCora, BlagCatalog, and Wiki-CS). The pre-trained model will be saved to the corresponding checkpoint folder in ./checkpoint for evaluation.

  1. To fine-tune the pre-trained model, run
python train.py --dataset data_name --setting fine-tune --load model_path

where the model_path is the path where the pre-trained model is saved.

  1. We provide five compared baselines in this code. They can be configured via the '--setting' arguments:
  • Origin: Vanilla backbone models with '--setting raw'
  • Over-Sampling: Repeat nodes in the minority classes with '--setting over-sampling'
  • Re-weight: Give samples from minority classes a larger weight when calculating the loss with '--setting re-weight'
  • SMOTE: Interpolation in the input space with '--setting smote'
  • Embed-SMOTE: Perform SMOTE in the intermediate embedding space with '--setting embed_smote'

Use Embed-SMOTE as an example:

python train.py --dataset cora --setting embed_smote

Citation

If you find this project useful for your research, please use the following BibTeX entry.

@inproceedings{wu2023graphmixup,
  title={Graphmixup: Improving class-imbalanced node classification by reinforcement mixup and self-supervised context prediction},
  author={Wu, Lirong and Xia, Jun and Gao, Zhangyang and Lin, Haitao and Tan, Cheng and Li, Stan Z},
  booktitle={Machine Learning and Knowledge Discovery in Databases: European Conference, ECML PKDD 2022, Grenoble, France, September 19--23, 2022, Proceedings, Part IV},
  pages={519--535},
  year={2023},
  organization={Springer}
}

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Code for ECML-PKDD 2022 paper "GraphMixup: Improving Class-Imbalanced Node Classification by Reinforcement Mixup and Self-supervised Context Prediction"

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