Beyond Isolated Clients: Integrating Graph-Based Embeddings into Event Sequence Models
Abstract
Self-supervised learning methods for user-item interaction prediction are enhanced by integrating graph structural information through embedding enrichment, representation alignment, and structural pretext tasks, showing improved accuracy across financial and e-commerce datasets.
Large-scale digital platforms generate billions of timestamped user-item interactions (events) that are crucial for predicting user attributes in, e.g., fraud prevention and recommendations. While self-supervised learning (SSL) effectively models the temporal order of events, it typically overlooks the global structure of the user-item interaction graph. To bridge this gap, we propose three model-agnostic strategies for integrating this structural information into contrastive SSL: enriching event embeddings, aligning client representations with graph embeddings, and adding a structural pretext task. Experiments on four financial and e-commerce datasets demonstrate that our approach consistently improves the accuracy (up to a 2.3% AUC) and reveals that graph density is a key factor in selecting the optimal integration strategy.
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