Leveraging Multi-facet Paths for Heterogeneous Graph Representation Learning

Recent advancements in graph neural networks (GNNs) and heterogeneous GNNs (HGNNs) have advanced node embeddings and relationship learning for various tasks. However, existing methods often rely on domain-specific predefined meta-paths, which are coarse-grained and focus solely on aspects like node type, limiting their ability to capture complex interactions. We introduce MF2Vec, a model that uses multi-faceted (fine-grained) paths instead of predefined meta-paths. MF2Vec extracts paths via random walks and generates multi-faceted vectors, ignoring predefined schemas. This method learns diverse aspects of nodes and their relationships, constructs a homogeneous network, and creates node embeddings for classification, link prediction, and clustering. Extensive experiments show that MF2Vec outperforms existing methods, offering a more flexible and comprehensive framework for analyzing complex networks. The code is available atthis https URL.

@article{kim2025_2407.20648,
  title={ Leveraging Multi-facet Paths for Heterogeneous Graph Representation Learning },
  author={ JongWoo Kim and SeongYeub Chu and HyeongMin Park and Bryan Wong and MunYong Yi },
  journal={arXiv preprint arXiv:2407.20648},
  year={ 2025 }
}