Edge-level multi-constranint graph pattern matching with lung cancer knowledge graph

Edge-level multi-constranint graph pattern matching with lung cancer knowledge graph

IntroductionTraditional Graph Pattern Matching (GPM) research mainly focuses on improving the accuracy and efficiency of complex network analysis and fast subgraph retrieval. Despite their ability to return subgraphs quickly and accurately, these methods are limited to their applications without med...

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Bibliographic Details
Main Authors: Houdie Tu, Lei Li, Zhenchao Tao, Zan Zhang
Format: Article
Language:English
Published: Frontiers Media S.A. 2025-02-01
Series:Frontiers in Big Data
Subjects:
graph pattern matching
probability graph
lung cancer knowledge graph
Monte Carlo method
multi-constranint
Online Access:https://www.frontiersin.org/articles/10.3389/fdata.2025.1546850/full
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Summary:IntroductionTraditional Graph Pattern Matching (GPM) research mainly focuses on improving the accuracy and efficiency of complex network analysis and fast subgraph retrieval. Despite their ability to return subgraphs quickly and accurately, these methods are limited to their applications without medical data research.MethodsIn order to overcome this limitation, based on the existing research on GPM with the lung cancer knowledge graph, this paper introduces the Monte Carlo method and proposes an edge-level multi-constraint graph pattern matching algorithm TEM with lung cancer knowledge graph. Furthermore, we apply Monte Carlo method to both nodes and edges, and propose a multi-constraint hologram pattern matching algorithm THM with lung cancer knowledge graph.ResultsThe experiments have verified the effectiveness and efficiency of TEM algorithm.DiscussionThis method effectively addresses the complexity of uncertainty in lung cancer knowledge graph, and is significantly better than the existing algorithms on efficiency.
ISSN:2624-909X

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