A Novel Framework for Enhancing Decision-Making in Autonomous Cyber Defense Through Graph Embedding

A Novel Framework for Enhancing Decision-Making in Autonomous Cyber Defense Through Graph Embedding

Faced with challenges posed by sophisticated cyber attacks and dynamic characteristics of cyberspace, the autonomous cyber defense (ACD) technology has shown its effectiveness. However, traditional decision-making methods for ACD are unable to effectively characterize the network topology and intern...

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Bibliographic Details
Main Authors: Zhen Wang, Yongjie Wang, Xinli Xiong, Qiankun Ren, Jun Huang
Format: Article
Language:English
Published: MDPI AG 2025-06-01
Series:Entropy
Subjects:
autonomous cyber defense
intelligent decision-making
graph embedding
reinforcement learning
Online Access:https://www.mdpi.com/1099-4300/27/6/622
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Summary:Faced with challenges posed by sophisticated cyber attacks and dynamic characteristics of cyberspace, the autonomous cyber defense (ACD) technology has shown its effectiveness. However, traditional decision-making methods for ACD are unable to effectively characterize the network topology and internode dependencies, which makes it difficult for defenders to identify key nodes and critical attack paths. Therefore, this paper proposes an enhanced decision-making method combining graph embedding with reinforcement learning algorithms. By constructing a game model for cyber confrontations, this paper models important elements of the network topology for decision-making, which guide the defender to dynamically optimize its strategy based on topology awareness. We improve the reinforcement learning with the Node2vec algorithm to characterize information for the defender from the network. And, node attributes and network structural features are embedded into low-dimensional vectors instead of using traditional one-hot encoding, which can address the perceptual bottleneck in high-dimensional sparse environments. Meanwhile, the algorithm training environment Cyberwheel is extended by adding new fine-grained defense mechanisms to enhance the utility and portability of ACD. In experiments, our decision-making method based on graph embedding is compared and analyzed with traditional perception methods. The results show and verify the superior performance of our approach in the strategy selection of defensive decision-making. Also, diverse parameters of the graph representation model Node2vec are analyzed and compared to find the impact on the enhancement of the embedding effectiveness for the decision-making of ACD.
ISSN:1099-4300

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