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| K-GCN for Identifying Key Nodes in Complex Networks |
| K-GCN for Identifying Key Nodes in Complex Networks |
| Received:November 12, 2024 Revised:December 25, 2024 |
| DOI: |
| 中文关键词: |
| 英文关键词:key nodes complex networks K-shell GCN |
| 基金项目: |
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| 中文摘要: |
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| 英文摘要: |
| Accurately identifying key nodes is essential for evaluating network robustness and
controlling information propagation in complex network analysis. However, current research
methods face limitations in applicability and accuracy. To address these challenges, this study
introduces the K-GCN model, which integrates neighborhood k-shell distribution analysis with
graph convolutional network (GCN) technology to enhance key node identification in complex
networks. The K-GCN model first leverages neighborhood k-shell distributions to calculate
entropy values for each node, effectively quantifying node importance within the network. These
entropy values are then used as key features within the GCN, which subsequently formulates
intelligent strategies to maximize network connectivity disruption by removing a minimal set of
nodes, thereby impacting the overall network architecture. Through iterative interactions with
the environment, the GCN continuously refines its strategies, achieving precise identification of
key nodes in the network. Unlike traditional methods, the K-GCN model not only captures
local node features but also integrates the network structure and complex interrelations between
neighboring nodes, significantly improving the accuracy and efficiency of key node identification.
Experimental validation in multiple real-world network scenarios demonstrates that the K-GCN
model outperforms existing methods. |
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