H ∞ -based truncated predictive control for switched nonlinear cyber physical systems subjected to actuator faults and deception attacks
DOI10.1080/00207721.2024.2332644zbMATH Open1544.93148MaRDI QIDQ6595613
Author name not available (Why is that?), N. Sakthivel
Publication date: 30 August 2024
Published in: International Journal of Systems Science. Principles and Applications of Systems and Integration (Search for Journal in Brave)
Nonlinear systems in control theory (93C10) Control/observation systems involving computers (process control, etc.) (93C83) (H^infty)-control (93B36) Control/observation systems governed by functional relations other than differential equations (such as hybrid and switching systems) (93C30) Networked control (93B70)
Cites Work
- Mixed \(\mathcal{H}_{\infty}\)/passive synchronization for complex dynamical networks with sampled-data control
- Maximum delay bounds of linear systems under delay independent truncated predictor feedback
- A co-design methodology for cyber-physical systems under actuator fault and cyber attack
- Distributed fault-tolerant output regulation for heterogeneous linear multi-agent systems under actuator faults
- Resilient adaptive control of switched nonlinear cyber-physical systems under uncertain deception attacks
- Cooperative adaptive fault-tolerant control for multi-agent systems with deception attacks
- Fault-tolerant secure consensus tracking of delayed nonlinear multi-agent systems with deception attacks and uncertain parameters via impulsive control
- Reliable control of a class of switched cascade nonlinear systems with its application to flight control
- A dynamic event-triggered resilient control approach to cyber-physical systems under asynchronous DoS attacks
- Distributed secure estimation for cyber-physical systems with fading measurements and false data injection attacks
- Secure control of cyber physical systems subject to stochastic distributed DoS and deception attacks
- Finite-Time Sliding-Mode Control of Markovian Jump Cyber-Physical Systems Against Randomly Occurring Injection Attacks
- Robust event‐triggered model predictive control for cyber‐physical systems under denial‐of‐service attacks
- Event-based security tracking control for networked control systems against stochastic cyber-attacks
This page was built for publication: H ∞ -based truncated predictive control for switched nonlinear cyber physical systems subjected to actuator faults and deception attacks
Report a bug (only for logged in users!)Click here to report a bug for this page (MaRDI item Q6595613)
