Neural Graph Navigation for Intelligent Subgraph Matching

Authors

  • Yuchen Ying State Key Laboratory of Blockchain and Data Security, Zhejiang University Hangzhou High-Tech Zone (Binjiang) Institute of Blockchain and Data Security
  • Yiyang Dai State Key Laboratory of Blockchain and Data Security, Zhejiang University Hangzhou High-Tech Zone (Binjiang) Institute of Blockchain and Data Security
  • Wenda Li State Key Laboratory of Blockchain and Data Security, Zhejiang University
  • Wenjie Huang State Key Laboratory of Blockchain and Data Security, Zhejiang University Hangzhou High-Tech Zone (Binjiang) Institute of Blockchain and Data Security
  • Rui Wang State Key Laboratory of Blockchain and Data Security, Zhejiang University Hangzhou High-Tech Zone (Binjiang) Institute of Blockchain and Data Security
  • Tongya Zheng State Key Laboratory of Blockchain and Data Security, Zhejiang University Zhejiang Provincial Engineering Research Center for Real-Time SmartTech in Urban Security Governance, School of Computer and Computing Science, Hangzhou City University Hangzhou High-Tech Zone (Binjiang) Institute of Blockchain and Data Security
  • Yu Wang State Key Laboratory of Blockchain and Data Security, Zhejiang University Hangzhou High-Tech Zone (Binjiang) Institute of Blockchain and Data Security
  • Hanyang Yuan State Key Laboratory of Blockchain and Data Security, Zhejiang University Hangzhou High-Tech Zone (Binjiang) Institute of Blockchain and Data Security
  • Mingli Song State Key Laboratory of Blockchain and Data Security, Zhejiang University Hangzhou High-Tech Zone (Binjiang) Institute of Blockchain and Data Security

DOI:

https://doi.org/10.1609/aaai.v40i19.38654

Abstract

Subgraph matching, a cornerstone of relational pattern detection in domains ranging from biochemical systems to social network analysis, faces significant computational challenges due to the dramatically growing search space. Existing methods address this problem within a filtering-ordering-enumeration framework, in which the enumeration stage recursively matches the query graph against the candidate subgraphs of the data graph. However, the lack of awareness of subgraph structural patterns leads to a costly brute-force enumeration, thereby critically motivating the need for intelligent navigation in subgraph matching. To address this challenge, we propose Neural Graph Navigation (NeuGN), a neuro-heuristic framework that transforms brute-force enumeration into neural-guided search by integrating neural navigation mechanisms into the core enumeration process. By preserving heuristic-based completeness guarantees while incorporating neural intelligence, NeuGN significantly reduces the First Match Steps by up to 98.2% compared to state-of-the-art methods across six real-world datasets.
AAAI-26 / IAAI-26 / EAAI-26 Proceedings Cover

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Published

2026-03-14

How to Cite

Ying, Y., Dai, Y., Li, W., Huang, W., Wang, R., Zheng, T., … Song, M. (2026). Neural Graph Navigation for Intelligent Subgraph Matching. Proceedings of the AAAI Conference on Artificial Intelligence, 40(19), 16181–16189. https://doi.org/10.1609/aaai.v40i19.38654

Issue

Vol. 40 No. 19: AAAI-26 Technical Tracks 19

Section

AAAI Technical Track on Data Mining & Knowledge Management III