--- name: SnomedCT's Subsumption Hierarchy (TBox) description: > This dataset is a collection of Multi-hop Inference and Mixed-hop Prediction datasets created from SnomedCT's subsumption hierarchy (TBox) for training and evaluating hierarchy embedding models. license: apache-2.0 language: - en multilinguality: - monolingual size_categories: - 1M A dataset for Multi-hop Inference with random negatives; samples formatted as triplets. data_files: - split: train path: MultiHop-RandomNegatives-Triplets/train* - split: val path: MultiHop-RandomNegatives-Triplets/val* - split: test path: MultiHop-RandomNegatives-Triplets/test* - config_name: MultiHop-HardNegatives-Triplets description: > A dataset for Multi-hop Inference with hard negatives; samples formatted as triplets. data_files: - split: train path: MultiHop-HardNegatives-Triplets/train* - split: val path: MultiHop-HardNegatives-Triplets/val* - split: test path: MultiHop-HardNegatives-Triplets/test* - config_name: MixedHop-RandomNegatives-Triplets description: > A dataset for Mixed-hop Prediction with random negatives; samples formatted as triplets. data_files: - split: train path: MixedHop-RandomNegatives-Triplets/train* - split: val path: MixedHop-RandomNegatives-Triplets/val* - split: test path: MixedHop-RandomNegatives-Triplets/test* - config_name: MixedHop-HardNegatives-Triplets description: > A dataset for Mixed-hop Prediction with hard negatives; samples formatted as triplets. data_files: - split: train path: MixedHop-HardNegatives-Triplets/train* - split: val path: MixedHop-HardNegatives-Triplets/val* - split: test path: MixedHop-HardNegatives-Triplets/test* - config_name: MultiHop-RandomNegatives-Pairs description: > A dataset for Multi-hop Inference with random negatives; samples formatted as pairs. data_files: - split: train path: MultiHop-RandomNegatives-Pairs/train* - split: val path: MultiHop-RandomNegatives-Pairs/val* - split: test path: MultiHop-RandomNegatives-Pairs/test* - config_name: MultiHop-HardNegatives-Pairs description: > A dataset for Multi-hop Inference with hard negatives; samples formatted as pairs. data_files: - split: train path: MultiHop-HardNegatives-Pairs/train* - split: val path: MultiHop-HardNegatives-Pairs/val* - split: test path: MultiHop-HardNegatives-Pairs/test* - config_name: MixedHop-RandomNegatives-Pairs description: > A dataset for Mixed-hop Prediction with random negatives; samples formatted as pairs. data_files: - split: train path: MixedHop-RandomNegatives-Pairs/train* - split: val path: MixedHop-RandomNegatives-Pairs/val* - split: test path: MixedHop-RandomNegatives-Pairs/test* - config_name: MixedHop-HardNegatives-Pairs description: > A dataset for Mixed-hop Prediction with hard negatives; samples formatted as pairs. data_files: - split: train path: MixedHop-HardNegatives-Pairs/train* - split: val path: MixedHop-HardNegatives-Pairs/val* - split: test path: MixedHop-HardNegatives-Pairs/test* --- # Dataset Card for SnomedCT This dataset is a collection of **Multi-hop Inference** and **Mixed-hop Prediction** datasets created from SnomedCT's subsumption hierarchy (TBox) for training and evaluating hierarchy embedding models. - **Multi-hop Inference**: This task aims to evaluate the model’s ability in deducing indirect, multi-hop subsumptions from direct, one-hop subsumptions, so as to simulate transitive inference. - **Mixed-hop Prediction**: This task aims to evaluate the model’s capability in determining the existence of subsumption relationships between arbitrary entity pairs, where the entities are not necessarily seen during training. The transfer setting of this task involves training models on asserted training edges of one hierarchy testing on arbitrary entity pairs of another. See our published [paper](https://arxiv.org/abs/2401.11374) for more detail. ## Links - **GitHub Repository:** https://github.com/KRR-Oxford/HierarchyTransformers - **Huggingface Page**: https://huggingface.co/Hierarchy-Transformers - **Zenodo Release**: https://doi.org/10.5281/zenodo.10511042 - **Paper:** [Language Models as Hierarchy Encoders](https://arxiv.org/abs/2401.11374) (NeurIPS 2024). The information of original entity IDs is not available in the Huggingface release; To map entities back to their original hierarchies, refer to this [Zenodo release](https://doi.org/10.5281/zenodo.10511042). ## Dataset Structure Each subset in this dataset follows the naming convention `TaskType-NegativeType-SampleStructure`: - `TaskType`: Either `MultiHop` or `MixedHop`, indicating the type of hierarchy evaluation task. - `NegativeType`: Either `RandomNegatives` or `HardNegatives`, specifying the strategy used for negative sampling. - `SampleStructure`: Either `Triplets` or `Pairs`, indicating the format of the samples. - In `Triplets`, each sample is structured as `(child, parent, negative)`. - In `Pairs`, each sample is a labelled pair `(child, parent, label)`, where `label=1` denotes a positive subsumption and `label=0` denotes a negative subsumption. For example, to load a subset for the **Mixed-hop Prediction** task with **random negatives** and samples presented as **triplets**, we can use the following command: ```python from datasets import load_dataset dataset = load_dataset("Hierarchy-Transformers/SnomedCT", "MixedHop-RandomNegatives-Triplets") ``` ## Dataset Usage - For **evaluation**, the `Pairs` sample structure should be adopted, as it allows for the computation of Precision, Recall, and F1 scores. - For **training**, the choice between `Pairs`, `Triplets`, or more complex sample structures depends on the model's design and specific requirements. ## Citation The relevant paper has been accepted at NeurIPS 2024 (to appear). ``` @article{he2024language, title={Language models as hierarchy encoders}, author={He, Yuan and Yuan, Zhangdie and Chen, Jiaoyan and Horrocks, Ian}, journal={arXiv preprint arXiv:2401.11374}, year={2024} } ``` ## Contact Yuan He (`yuan.he(at)cs.ox.ac.uk`)