Large Language Models powered Network Attack Detection: Architecture, Opportunities and Case Study
Network attack detection is a pivotal technology to identify network anomaly and classify malicious traffic. Large Language Models (LLMs) are trained on a vast corpus of text, have amassed remarkable capabilities of context-understanding and commonsense knowledge. This has opened up a new door for network threat detection. Researchers have already initiated discussions regarding the application of LLMs on specific cyber-security tasks. Unfortunately, there is still a lack of comprehensive elaboration how to mine LLMs' potentials in network threat detections, as well as the opportunities and challenges. In this paper, we mainly focus on the classification of malicious traffic from the perspective of LLMs' capability. We present a holistic view of the architecture of LLM-powered network attack detection, including Pre-training, Fine-tuning, and Detection. Especially, by exploring the knowledge and capabilities of LLM, we identify three distinct roles LLM can act in network attack detection: \textit{Classifier, Encoder, and Predictor}. For each of them, the modeling paradigm, opportunities and challenges are elaborated. Finally, we present our design on LLM-powered DDoS detection as a case study. The proposed framework attains accurate detection on carpet bombing DDoS by exploiting LLMs' capabilities in contextual mining. The evaluation shows its efficacy, exhibiting a nearly \% improvement compared to existing systems.
View on arXiv@article{zhang2025_2503.18487,
title={ Large Language Models powered Malicious Traffic Detection: Architecture, Opportunities and Case Study },
author={ Xinggong Zhang and Haotian Meng and Qingyang Li and Yunpeng Tan and Lei Zhang },
journal={arXiv preprint arXiv:2503.18487},
year={ 2025 }
}