Temporal Knowledge Graph Completion using Box Embeddings
This work addresses the problem of inferring missing temporal facts in knowledge graphs for applications like data mining, representing an incremental improvement over existing methods.
The paper tackles temporal knowledge graph completion by proposing BoxTE, a box embedding model that extends BoxE to incorporate time, achieving state-of-the-art results on multiple benchmarks.
Knowledge graph completion is the task of inferring missing facts based on existing data in a knowledge graph. Temporal knowledge graph completion (TKGC) is an extension of this task to temporal knowledge graphs, where each fact is additionally associated with a time stamp. Current approaches for TKGC primarily build on existing embedding models which are developed for (static) knowledge graph completion, and extend these models to incorporate time, where the idea is to learn latent representations for entities, relations, and timestamps and then use the learned representations to predict missing facts at various time steps. In this paper, we propose BoxTE, a box embedding model for TKGC, building on the static knowledge graph embedding model BoxE. We show that BoxTE is fully expressive, and possesses strong inductive capacity in the temporal setting. We then empirically evaluate our model and show that it achieves state-of-the-art results on several TKGC benchmarks.