Structural Generalization in Autonomous Cyber Incident Response with Message-Passing Neural Networks and Reinforcement Learning
July 08, 2024 Β· Declared Dead Β· π Computer Science Symposium in Russia
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Authors
Jakob Nyberg, Pontus Johnson
arXiv ID
2407.05775
Category
cs.AI: Artificial Intelligence
Cross-listed
cs.CR
Citations
5
Venue
Computer Science Symposium in Russia
Last Checked
4 months ago
Abstract
We believe that agents for automated incident response based on machine learning need to handle changes in network structure. Computer networks are dynamic, and can naturally change in structure over time. Retraining agents for small network changes costs time and energy. We attempt to address this issue with an existing method of relational agent learning, where the relations between objects are assumed to remain consistent across problem instances. The state of the computer network is represented as a relational graph and encoded through a message passing neural network. The message passing neural network and an agent policy using the encoding are optimized end-to-end using reinforcement learning. We evaluate the approach on the second instance of the Cyber Autonomy Gym for Experimentation (CAGE~2), a cyber incident simulator that simulates attacks on an enterprise network. We create variants of the original network with different numbers of hosts and agents are tested without additional training on them. Our results show that agents using relational information are able to find solutions despite changes to the network, and can perform optimally in some instances. Agents using the default vector state representation perform better, but need to be specially trained on each network variant, demonstrating a trade-off between specialization and generalization.
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