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Bibliographic Details
Main Authors: Xie, Wen-Bo, Fu, Xun, Chen, Bin, Lee, Yan-Li, Deng, Tao, Zou, Tian, Wang, Xin, Liu, Zhen, Srivastavad, Jaideep
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2509.08530
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Table of Contents:
  • In this work, we focus on the efficiency and scalability of pairwise constraint-based active clustering, crucial for processing large-scale data in applications such as data mining, knowledge annotation, and AI model pre-training. Our goals are threefold: (1) to reduce computational costs for iterative clustering updates; (2) to enhance the impact of user-provided constraints to minimize annotation requirements for precise clustering; and (3) to cut down memory usage in practical deployments. To achieve these aims, we propose a graph-based active clustering algorithm that utilizes two sparse graphs: one for representing relationships between data (our proposed data skeleton) and another for updating this data skeleton. These two graphs work in concert, enabling the refinement of connected subgraphs within the data skeleton to create nested clusters. Our empirical analysis confirms that the proposed algorithm consistently facilitates more accurate clustering with dramatically less input of user-provided constraints, and outperforms its counterparts in terms of computational performance and scalability, while maintaining robustness across various distance metrics.