Skip to content

ACL 2019: Learning Attention-based Embeddings for Relation Prediction in Knowledge Graphs

Notifications You must be signed in to change notification settings

WANGBEAN068/RGAT

 
 

Repository files navigation

Learning Attention-based Embeddings for Relation Prediction in Knowledge Graphs

PWC PWC

Source code for our ACL 2019 paper: Learning Attention-based Embeddings for Relation Prediction in Knowledge Graphs Blog link for this publication.

Requirements

Please download miniconda from above link and create an environment using the following command:

    conda env create -f pytorch35.yml

Activate the environment before executing the program as follows:

    source activate pytorch35

Dataset

We used five different datasets for evaluating our model. All the datasets and their folder names are given below.

  • Freebase: FB15k-237
  • Wordnet: WN18RR
  • Nell: NELL-995
  • Kinship: kinship
  • UMLS: umls

Training

Parameters:

--data: Specify the folder name of the dataset.

--epochs_gat: Number of epochs for gat training.

--epochs_conv: Number of epochs for convolution training.

--lr: Initial learning rate.

--weight_decay_gat: L2 reglarization for gat.

--weight_decay_conv: L2 reglarization for conv.

--get_2hop: Get a pickle object of 2 hop neighbors.

--use_2hop: Use 2 hop neighbors for training.

--partial_2hop: Use only 1 2-hop neighbor per node for training.

--output_folder: Path of output folder for saving models.

--batch_size_gat: Batch size for gat model.

--valid_invalid_ratio_gat: Ratio of valid to invalid triples for GAT training.

--drop_gat: Dropout probability for attention layer.

--alpha: LeakyRelu alphas for attention layer.

--nhead_GAT: Number of heads for multihead attention.

--margin: Margin used in hinge loss.

--batch_size_conv: Batch size for convolution model.

--alpha_conv: LeakyRelu alphas for conv layer.

--valid_invalid_ratio_conv: Ratio of valid to invalid triples for conv training.

--out_channels: Number of output channels in conv layer.

--drop_conv: Dropout probability for conv layer.

Reproducing results

To reproduce the results published in the paper:
When running for first time, run preparation script with:

    $ sh prepare.sh
  • Wordnet

      $ python3 main.py --get_2hop True
    
  • Freebase

      $ python3 main.py --data ./data/FB15k-237/ --epochs_gat 3000 --epochs_conv 200 --weight_decay_gat 0.00001 --get_2hop True --partial_2hop True --batch_size_gat 272115 --margin 1 --out_channels 50 --drop_conv 0.3 --weight_decay_conv 0.000001 --output_folder ./checkpoints/fb/out/
    

Citation

Please cite the following paper if you use this code in your work.

    @InProceedings{KBGAT2019,
    author = "Nathani, Deepak and Chauhan, Jatin and Sharma, Charu and Kaul, Manohar",
    title = "Learning Attention-based Embeddings for Relation Prediction in Knowledge Graphs",
    booktitle = "Proceedings of the 57th Annual Meeting of the Association for Computational Linguistics",
    year = "2019",
    publisher = "Association for Computational Linguistics",
    location = "Florence, Italy",
    }

For any clarification, comments, or suggestions please create an issue or contact [email protected]

About

ACL 2019: Learning Attention-based Embeddings for Relation Prediction in Knowledge Graphs

Resources

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published

Languages

  • Python 99.5%
  • Shell 0.5%