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A PyTorch re-implementation of our ISWC2018 paper: Towards Empty Answers in SPARQL: Approximating Querying with RDF Embedding.

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An Implementation of Our ISWC Paper in PyTorch

Introduction

This implementation includes three training codes:

  • iswc_train_for_translation_maintenance.py

To learn the embedding representation which is expected to maintain well the translation mechanism of TransE.

  • iswc_train_for_context_preservation.py

To learn the embedding representation of the train graph which faithfully preserves the context information for downstream tasks.

  • iswc_train_for_entity_prediction.py

To learn the embedding representation which could be utilized to predict the entity according to the context.

Two methods were implemented to sample entity contexts and negative entities for training:

  • context_and_negatives_pre.py

An offline sampling method based on python dictionaries. Although I name it by "offline", the method could still be called during online training for re-sampling, which is also how the above three codes were implemented.

  • online_batch_retrieve.py

An online sampling method based on torch tensor computation.

Although the offline method is more effective, I still implemented a training code for demonstration, i.e., iswc_train_with_online_context_and_negatives_generation.py based on the online method.

Dataset

The input knowledge graph data, i.e., train.txt, valid.txt, and test.txt, should be organized in N-triple format. For example:

<http://rdf.freebase.com/ns/m.01qscs>   /award/award_nominee/award_nominations./award/award_nomination/award    <http://rdf.freebase.com/ns/m.02x8n1n>
<http://rdf.freebase.com/ns/m.040db>    /base/activism/activist/area_of_activism        <http://rdf.freebase.com/ns/m.0148d>
<http://rdf.freebase.com/ns/m.02jx1>    /location/location/contains     <http://rdf.freebase.com/ns/m.013t85>

Notice:

Please firstly run data_preparation.py to generate intermediate files for the training.

Taking FB15k as an example, the structure of the dataset should be like:

ISWC2018_Pytorch/
    datasets/
        FB15k/
            input/
                train.txt
                valid.txt
                test.txt
            output/
                # intermediate files would be under this directory
            result/
                # training result would be under this directory

The tsne vectors generated by tsne_process.py could be used to plot scatter charts with any tools, e.g., MATLAB. Since we expect the learned embedding representations to preserve context information, the scatter charts should show clusters of entities which share similar contexts. For example, the visualization of FB15k should be like:

FB15k_visualization

Please kindly cite our paper if this paper and the implementation are helpful.

@inproceedings{DBLP:conf/semweb/WangWLCZQ18,
  author    = {Meng Wang and
               Ruijie Wang and
               Jun Liu and
               Yihe Chen and
               Lei Zhang and
               Guilin Qi},
  title     = {Towards Empty Answers in {SPARQL:} Approximating Querying with {RDF}
               Embedding},
  booktitle = {The Semantic Web - {ISWC} 2018 - 17th International Semantic Web Conference,
               Monterey, CA, USA, October 8-12, 2018, Proceedings, Part {I}},
  pages     = {513--529},
  year      = {2018},
  crossref  = {DBLP:conf/semweb/2018-1},
  url       = {https://doi.org/10.1007/978-3-030-00671-6\_30},
  doi       = {10.1007/978-3-030-00671-6\_30},
  timestamp = {Tue, 05 Nov 2019 08:34:51 +0100},
  biburl    = {https://dblp.org/rec/bib/conf/semweb/WangWLCZQ18},
  bibsource = {dblp computer science bibliography, https://dblp.org}
}

Corrections to a error in my paper:

The following error was introduced during the editing/proofing stages. Negative sampling Equation (5)

should be replaced by:

Other graph-embedding based KG query papers:

*Learning to Hash for Efficient Search over Incomplete Knowledge Graphs. Meng Wang, Haomin Shen, Sen Wang, Lina Yao, Yinlin Jiang, Guilin Qi and Yang Chen. In the 19th International Conference on Data Mining (ICDM 2019).

*Embedding Logical Queries on Knowledge Graphs. William L. Hamilton, Marinka Zitnik, Payal Bajaj, Dan Jurafsky, Jure Leskovec. In Proceedings of NIPS. Dec. 2018.

*Contextual Graph Attention for Answering Logical Queries over Incomplete Knowledge Graphs. Mai G, Janowicz K, Yan B, et al. In Proceedings of the 10th International Conference on Knowledge Capture. ACM, 2019: 171-178.

*TrQuery: An Embedding-based Framework for Recommanding SPARQL Queries. Lijing Zhang, Xiaowang Zhang, Zhiyong Feng. In Proceedings of ICTAI. Nov. 2018.

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A PyTorch re-implementation of our ISWC2018 paper: Towards Empty Answers in SPARQL: Approximating Querying with RDF Embedding.

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