Resilient control co-design for cyber-physical systems with DoS attacks via a successive convex optimization approach
From MaRDI portal
Publication:6099903
DOI10.1016/j.jfranklin.2023.03.003zbMath1516.93044OpenAlexW4323665313MaRDI QIDQ6099903
Yiyue Zhang, Yingying Ren, Da-wei Ding
Publication date: 21 June 2023
Published in: Journal of the Franklin Institute (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.jfranklin.2023.03.003
Convex programming (90C25) Sensitivity (robustness) (93B35) Feedback control (93B52) Control/observation systems involving computers (process control, etc.) (93C83) Networked control (93B70)
Related Items
Cites Work
- Self-triggered linear quadratic control
- Event-triggered communication and \(H_\infty\) control co-design for networked control systems
- A state-feedback approach to event-based control
- First and second order analysis of nonlinear semidefinite programs
- Periodic event-triggered resilient control for cyber-physical systems under denial-of-service attacks
- Event-triggered fuzzy control for nonlinear networked control systems
- Application of the unified control and detection framework to detecting stealthy integrity cyber-attacks on feedback control systems
- False data injection attacks with complete stealthiness in cyber-physical systems: a self-generated approach
- Distributed event-triggered control co-design for large-scale systems via static output feedback
- Distributed formation control for teleoperating cyber-physical system under time delay and actuator saturation constrains
- Sequential parametric convex approximation algorithm for bilinear matrix inequality problem
- A secure control framework for resource-limited adversaries
- Resilient control under denial-of-service: robust design
- Input-to-State Stabilizing Control Under Denial-of-Service
- Secure State Estimation for Cyber-Physical Systems Under Sensor Attacks: A Satisfiability Modulo Theory Approach
- An Adaptive Control Architecture for Mitigating Sensor and Actuator Attacks in Cyber-Physical Systems
- Adaptive fault‐tolerant control of mobile robots with actuator faults and unknown parameters
