Zero-shot learning relies on semantic class representations such as hand-engineered attributes or learned embeddings to predict classes without any labeled examples. We propose to learn class representations by embedding nodes from common sense knowledge graphs in a vector space. Common sense knowledge graphs are an untapped source of explicit high-level knowledge that requires little human effort to apply to a range of tasks. To capture the knowledge in the graph, we introduce ZSL-KG, a general-purpose framework with a novel transformer graph convolutional network (TrGCN) for generating class representations. Our proposed TrGCN architecture computes non-linear combinations of node neighbourhoods. Our results show that ZSL-KG improves over existing WordNet-based methods on five out of six zero-shot benchmark datasets in language and vision.
Zero-Shot Learning with Common Sense Knowledge Graphs
ZSL-KG, a framework using a transformer graph convolutional network, enhances zero-shot learning by embedding common sense knowledge graphs for class representation, outperforming WordNet-based methods on most benchmarks.
- Year
- 2020
- Venue
- arXiv 2020
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- 2
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- arxiv.org/abs/2006.10713v4ARXIV-DEFAULT
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