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Main Authors: Xie, Yiming, Dai, Hua, Jiang, Mingfeng, Li, Pengyue, Zhang, zhengkai, Li, Bohan
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2511.05082
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author Xie, Yiming
Dai, Hua
Jiang, Mingfeng
Li, Pengyue
Zhang, zhengkai
Li, Bohan
author_facet Xie, Yiming
Dai, Hua
Jiang, Mingfeng
Li, Pengyue
Zhang, zhengkai
Li, Bohan
contents Neural embedding models are extensively employed in the table union search problem, which aims to find semantically compatible tables that can be merged with a given query table. In particular, multi-vector models, which represent a table as a vector set (typically one vector per column), have been demonstrated to achieve superior retrieval quality by capturing fine-grained semantic alignments. However, this problem faces more severe efficiency challenges than the single-vector problem due to the inherent dependency on bipartite graph maximum matching to compute unionability scores. Therefore, this paper proposes an efficient Proximity Graph-based Table Union Search (PGTUS) approach. PGTUS employs a multi-stage pipeline that combines a novel refinement strategy, a filtering strategy based on many-to-one bipartite matching. Besides, we propose an enhanced pruning strategy to prune the candidate set, which further improve the search efficiency. Extensive experiments on six benchmark datasets demonstrate that our approach achieves 3.6-6.0X speedup over existing approaches while maintaining comparable recall rates.
format Preprint
id arxiv_https___arxiv_org_abs_2511_05082
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle An Efficient Proximity Graph-based Approach to Table Union Search
Xie, Yiming
Dai, Hua
Jiang, Mingfeng
Li, Pengyue
Zhang, zhengkai
Li, Bohan
Databases
Neural embedding models are extensively employed in the table union search problem, which aims to find semantically compatible tables that can be merged with a given query table. In particular, multi-vector models, which represent a table as a vector set (typically one vector per column), have been demonstrated to achieve superior retrieval quality by capturing fine-grained semantic alignments. However, this problem faces more severe efficiency challenges than the single-vector problem due to the inherent dependency on bipartite graph maximum matching to compute unionability scores. Therefore, this paper proposes an efficient Proximity Graph-based Table Union Search (PGTUS) approach. PGTUS employs a multi-stage pipeline that combines a novel refinement strategy, a filtering strategy based on many-to-one bipartite matching. Besides, we propose an enhanced pruning strategy to prune the candidate set, which further improve the search efficiency. Extensive experiments on six benchmark datasets demonstrate that our approach achieves 3.6-6.0X speedup over existing approaches while maintaining comparable recall rates.
title An Efficient Proximity Graph-based Approach to Table Union Search
topic Databases
url https://arxiv.org/abs/2511.05082