Ren Xiuxiu
|
- Associate professor
- Supervisor of Doctorate Candidates
- Supervisor of Master's Candidates
- Name (Pinyin):Ren Xiuxiu
- E-Mail:
- Education Level:With Certificate of Graduation for Doctorate Study
- Business Address:信息楼201A
- Degree:Doctoral Degree in Engineering
- Professional Title:Associate professor
- Status:Employed
- Alma Mater:东北大学
- Teacher College:信息科学与工程学院
Contact Information
- PostalAddress:
- Email:
- Paper Publications
- 任秀秀,杨光红*Optimal stealthy attack with historical data on cyber-physical systems.Automatica,151110895
- 任秀秀,杨光红*Kullback-Leibler divergence-based optimal stealthy sensor attack against networked linear quadratic Gaussian systems.IEEE Transactions on Cybernetics,52(11):11539-11548
- 任秀秀,杨光红*Historical data-based stealthy attack design on cyber-physical systems under Kullback-Leibler divergence.IEEE Transactions on Industrial Informatics,20(4):6664-6672
- 任秀秀,杨光红*Protocol-based optimal stealthy data-injection attacks via compromised sensors in cyber-physical systems.IEEE Transactions on Industrial Electronics,70(3):2907-2915
- 任秀秀,杨光红*Statistical-based optimal epsilon-stealthy attack under stochastic communication protocol: An application to networked permanent magnet synchronous motor systems.IEEE Transactions on Industrial Electronics,70(1):1036-1046
- 任秀秀,杨光红*Modified Kalman filtering for stochastic nonlinear systems under non-Gaussian-Levy noise and cyber attacks.IEEE Transactions on Systems, Man, and Cybernetics: Systems,53(2):1222-1232
- 任秀秀,杨光红*Global adaptive fuzzy distributed tracking control for interconnected nonlinear systems with communication constraints.IEEE Transactions on Fuzzy Systems,28(2):333-345
- 任秀秀,杨光红*Adaptive control for nonlinear cyber-physical systems under false data injection attacks through sensor networks.International Journal of Robust and Nonlinear Control,30(1):65-79
- 任秀秀,杨光红*Noise covariance estimation for networked linear systems under random access protocol scheduling.Neurocomputing,45568-77
- 任秀秀,杨光红*Multi-sensor Kalman filtering over packet-dropping networks subject to round-robin protocol scheduling.Journal of the Franklin Institute,358(15):7938-7954