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[Paper][ISWC 2023] A Comprehensive Study on Knowledge Graph Embedding over Relational Patterns Based on Rule Learning

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Quantitative analysis over relational patterns and SPA

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This repository contains code for:

-A Comprehensive Study on Knowledge Graph Embedding over Relational Patterns Based on Rule Learning

Though KGE models' capabilities are analyzed over different relational patterns in theory, a comprehensive quantitative analysis on KGE models over relational patterns remains absent. To address this challenge, we evaluate the performance of 7 KGE models over 4 common relational patterns on 2 benchmarks, then conduct an analysis in theory, entity frequency, and part-to-whole three aspects and get some counterintuitive conclusions. Finally, we introduce a training-free method Score-based Patterns Adaptation (SPA) to enhance KGE models' performance over various relational patterns.

🌈 Model Architecture

📕 Usage

  • src/:
    • SPA/: include SPA codes.
  • dataset/:
    • dataset/FB15K237/: FB15k-237 dataset resources
    • dataset/WN18RR/: WN18RR dataset resources
    • dataset/amie3.jar: rule mining tool AMIE3
    • dataset/classify.py: Quantitative analysis over relational patterns
  • output/:
    • output/link_prediciton/FB15K237/: model outputs for FB15k-237 dataset
    • output/link_prediciton/WN18RR/: model outputs for WN18RR dataset
  • logging/: include train logging files.
  • scripts/: include train shell files.
  • quantitative_analysis.py: Quantitative analysis over relational patterns

💡 Training and Testing

Step1 Create a virtual environment using Anaconda and enter it

conda create -n spa python=3.8
conda activate spa

Step2 Install package

pip install -r requirements.txt

Step3 Classify relations and triples with AMIE3

# python dataset/classify.py arg1 arg2 arg3
# arg1 is the dataset be chosen which FB15k237 and WN18RR are available
# arg2 is the PCA with AMIE3
# arg3 is the HC  with AMIE3
python dataset/classify.py FB15k237 0.8 0.5
python dataset/classify.py WN18RR 0.8 0.5

Step4 Quantitative analysis over relational patterns

python quantitative_analysis.py

Step5 Train and test KGE model

# FB15k-237
sh scripts/FreeBase/TransE_FB.sh
sh scripts/FreeBase/RotatE_FB.sh
sh scripts/FreeBase/HAKE_FB.sh
sh scripts/FreeBase/DistMult_FB.sh
sh scripts/FreeBase/ComplEx_FB.sh
sh scripts/FreeBase/DualE_FB.sh
sh scripts/FreeBase/PairRE_FB.sh
# WN18RR
sh scripts/WordNet/TransE_WN.sh
sh scripts/WordNet/RotatE_WN.sh
sh scripts/WordNet/HAKE_WN.sh
sh scripts/WordNet/DistMult_WN.sh
sh scripts/WordNet/ComplEx_WN.sh
sh scripts/WordNet/DualE_WN.sh
sh scripts/WordNet/PairRE_WN.sh

Step6 Combine KGE socre with SPA score

Before Step6, please NOTE:

  • Replace the data in the test {DATASET} with the data under the {PATTERN} dataset.
#{DATASET} = {FB15K237, WN18RR}
#{PATTERN} = {symmetric, inverse, multiple, compose2}
cat dataset/{DATASET}/relation_classify/minhc_0.5_minpca_0.8_maxad_4/{PATTERN}/num_constrain_0.txt > dataset/{DATASET}/test.txt
  • Make sure the parameter setting in scripts/FreeBase_SPA/{KGE}_FB.sh and scripts/WordNet_SPA/{KGE}_WN.sh which includes:
    • the path of trained model --checkpoint_dir
    • For symmetric, use pattern weight --use_sym_weight and lambda of pattern --lambda_sym
    • For inverse, use pattern weight --use_inv_weight and lambda of pattern --lambda_inv
    • For multiple, use pattern weight --use_sub_weight and lambda of pattern --lambda_sub
    • For compose2, use pattern weight --use_comp2_weight and lambda of pattern --lambda_comp2
# FB15k-237
sh scripts/FreeBase_SPA/TransE_FB.sh
sh scripts/FreeBase_SPA/RotatE_FB.sh
sh scripts/FreeBase_SPA/HAKE_FB.sh
sh scripts/FreeBase_SPA/DistMult_FB.sh
sh scripts/FreeBase_SPA/ComplEx_FB.sh
sh scripts/FreeBase_SPA/DualE_FB.sh
sh scripts/FreeBase_SPA/PairRE_FB.sh
# WN18RR
sh scripts/WordNet_SPA/TransE_WN.sh
sh scripts/WordNet_SPA/RotatE_WN.sh
sh scripts/WordNet_SPA/HAKE_WN.sh
sh scripts/WordNet_SPA/DistMult_WN.sh
sh scripts/WordNet_SPA/ComplEx_WN.sh
sh scripts/WordNet_SPA/DualE_WN.sh
sh scripts/WordNet_SPA/PairRE_WN.sh

Note:

  • Default .sh files have been set the best hyperparameters, you can open the .sh file for parameter modification.

Acknowledgement

  • Our prior work: NeuralKG
  • We appreciate AMIE and many other related works for their open-source contributions.

🤝 Cite:

Please condiser citing this paper if you use the code from our work. Thanks a lot :)

@article{jin2023comprehensive,
  title={A Comprehensive Study on Knowledge Graph Embedding over Relational Patterns Based on Rule Learning},
  author={Jin, Long and Yao, Zhen and Chen, Mingyang and Chen, Huajun and Zhang, Wen},
  journal={arXiv preprint arXiv:2308.07889},
  year={2023}
}

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[Paper][ISWC 2023] A Comprehensive Study on Knowledge Graph Embedding over Relational Patterns Based on Rule Learning

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