Personalized Clustering via Targeted Representation Learning
This addresses the need for user-aligned clustering in applications like recommendation systems, though it is incremental as it builds on existing interactive clustering methods.
The paper tackles the problem of aligning clustering with user preferences by proposing a personalized clustering method that uses targeted representation learning and active queries of must-link or cannot-link pairs, achieving strong performance across tasks and datasets with limited queries.
Clustering traditionally aims to reveal a natural grouping structure within unlabeled data. However, this structure may not always align with users' preferences. In this paper, we propose a personalized clustering method that explicitly performs targeted representation learning by interacting with users via modicum task information (e.g., $\textit{must-link}$ or $\textit{cannot-link}$ pairs) to guide the clustering direction. We query users with the most informative pairs, i.e., those pairs most hard to cluster and those most easy to miscluster, to facilitate the representation learning in terms of the clustering preference. Moreover, by exploiting attention mechanism, the targeted representation is learned and augmented. By leveraging the targeted representation and constrained contrastive loss as well, personalized clustering is obtained. Theoretically, we verify that the risk of personalized clustering is tightly bounded, guaranteeing that active queries to users do mitigate the clustering risk. Experimentally, extensive results show that our method performs well across different clustering tasks and datasets, even when only a limited number of queries are available.