IMADP: Imputation-based Anomaly Detection in SCADA Systems via Adversarial Diffusion Process
发布时间:2026-03-08 点击次数:
姚羽(教授)
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- 博士生导师 硕士生导师
- 电子邮箱:
- 职务:复杂网络系统安全保障技术教育部工程研究中心主任
- 学历:博士研究生毕业
- 性别:男
- 联系方式:yaoyu@mail.neu.edu.cn
- 学位:博士
- 毕业院校:东北大学
- 所属院系:计算机科学与工程学院
- 学科:
计算机应用技术
计算机软件与理论
计算机系统结构
- 发表刊物:IEEE Transactions on Network and Service Management
- 影响因子:5.4
- 摘要:As the confrontation of the industrial cybersecurity upgrades, multi-dimensional variables measured by the SCADA multi-sensor are critical for assessing security risks in industrial field devices. While Deep Learning (DL) methods based on generative models have demonstrated effectiveness, the impact of missing features in samples and temporal window size on modeling and detection processes has been consistently overlooked. To address these challenges, this work proposes an IMADP framework that integratively solves two tasks of missingness patching and anomaly detection. Firstly, the Window-based Adaptive Selection Strategy (WASS) is also designed to intelligently window samples, reducing reliance on prior settings. Secondly, an imputer is constructed under WASS to restore sample integrity, which is implemented by a fully-connected network centered on Neural Controlled Differential Equations (NCDEs). Thirdly, a adversarial diffusion detection model with the variant Transformer as the inverse solver is proposed. Additionally, the Adaptive Dynamic Mask Mechanism (ADMM) is built upon to bolster the model’s comprehension of inter-dependencies between time and sensor nodes. Simultaneously, adversarial training is introduced to optimize training and detection latency caused by the excessive diffusion step size during the native Conditional Diffusion process. The experimental results validate that the proposed framework has the capability to build detectors using missing training samples, and its overall detection performance, tested across six datasets, is superior to existing methods.
- 关键字:SCADA Multi-sensor , Anomaly Detection , Imputation-based , Conditional Diffusion
- 论文类型:SCI JCR Q1
- 备注:https://ieeexplore.ieee.org/abstract/document/11419166
- 学科门类:工学
- 文献类型:JCR 一区
- 是否译文:否