accepted version.pdf (8.26 MB)
Download file

Co-Design Secure Control Based on Image Attack Detection and Data Compensation for Networked Visual Control Systems

Download (8.26 MB)
journal contribution
posted on 16.09.2022, 10:21 authored by D Du, L Wu, C Zhang, Z Fei, L Yang, M Fei, Huiyu Zhou

The incomplete and untrue data caused by cyberattacks (e.g., image information leakage and tampering) willaffect control performance and even lead to system instability.To address this problem, a novel co-design secure control methodbased on image attack detection and data compensation fornetworked visual control systems (NVCSs) is proposed. Firstly,the existing problems of NVCSs under image attacks are an-alyzed, and a co-design secure control method including imageencryption, watermarking-based attack detection and online datacompensation is presented. Then, a detector based on double-layer detection mechanism of timeout and digital watermarkingis designed for real-time, integrity and authenticity discriminationof the image. Furthermore, according to the detection results, anonline compensation scheme based on cubic spline interpolationand post-prediction update is proposed to reduce the effect ofcumulative errors and improve control performance. Finally,the online compensation scheme is optimized by consideringthe characters of networked inverted pendulum visual controlsystems, and experimental results demonstrate the feasibility andeffectiveness of the proposed detection and control method.


National Science Foundation of China under Grant Nos. 92067106, 61773253, 61803252, and 61833011, 111 Project under Grant No. D18003, and Project of Science and Technology Commission of Shanghai Municipality under Grant Nos. 20JC1414000, 19510750300, 21190780300


Author affiliation

School of Computing and Mathematical Sciences, University of Leicester


AM (Accepted Manuscript)

Published in

IEEE Transactions on Instrumentation & Measurement


Institute of Electrical and Electronics Engineers (IEEE)



Copyright date


Available date


Publisher DOI