5 research outputs found
Coordinated Reasoning for Cross-Lingual Knowledge Graph Alignment
Existing entity alignment methods mainly vary on the choices of encoding the
knowledge graph, but they typically use the same decoding method, which
independently chooses the local optimal match for each source entity. This
decoding method may not only cause the "many-to-one" problem but also neglect
the coordinated nature of this task, that is, each alignment decision may
highly correlate to the other decisions. In this paper, we introduce two
coordinated reasoning methods, i.e., the Easy-to-Hard decoding strategy and
joint entity alignment algorithm. Specifically, the Easy-to-Hard strategy first
retrieves the model-confident alignments from the predicted results and then
incorporates them as additional knowledge to resolve the remaining
model-uncertain alignments. To achieve this, we further propose an enhanced
alignment model that is built on the current state-of-the-art baseline. In
addition, to address the many-to-one problem, we propose to jointly predict
entity alignments so that the one-to-one constraint can be naturally
incorporated into the alignment prediction. Experimental results show that our
model achieves the state-of-the-art performance and our reasoning methods can
also significantly improve existing baselines.Comment: in AAAI 202