Link Prediction for Flow-Driven Spatial Networks
Link prediction algorithms predict the existence of connections between nodes in network-structured data and are typically applied to refine the connectivity among nodes by proposing meaningful new links. In this work, we focus on link prediction for flow-driven spatial networks, which are embedded in a Euclidean space and relate to physical exchange and transportation processes (e.g., blood flow in vessels or traffic flow in road networks). To this end, we propose the Graph Attentive Vectors (GAV) link prediction framework. GAV models simplified dynamics of physical flow in spatial networks via an attentive, neighborhood-aware message-passing paradigm, updating vector embeddings in a constrained manner. We evaluate GAV on eight flow-driven spatial networks given by whole-brain vessel graphs and road networks. GAV demonstrates superior performances across all datasets and metrics and outperforms the current state-of-the-art on the ogbl-vessel benchmark by more than 18 AUC).
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