Synthetic Datasets for Rule Learning
Logical rules are a popular knowledge representation language in many domains. Recently, neural networks have been proposed to support the complex rule induction process. However, we argue that existing datasets and evaluation approaches are lacking in various dimensions; for example, different kinds of rules or dependencies between rules are neglected. Moreover, for the development of neural approaches, we need large amounts of data to learn from and adequate, approximate evaluation measures. In this paper, we provide a tool for generating diverse datasets and for evaluating neural rule learning systems, including novel performance metrics.
Variants: RuDaS
This dataset is used in 1 benchmark:
| Task | Model | Paper | Date |
|---|---|---|---|
| Inductive logic programming | AMIE+ | RuDaS: Synthetic Datasets for Rule … | 2019-09-16 |
| Inductive logic programming | FOIL | RuDaS: Synthetic Datasets for Rule … | 2019-09-16 |
| Inductive logic programming | Neural-LP | RuDaS: Synthetic Datasets for Rule … | 2019-09-16 |
| Inductive logic programming | NTP | RuDaS: Synthetic Datasets for Rule … | 2019-09-16 |
Recent papers with results on this dataset: