Reliable control strategy based on sliding mode observer against FDI attacks in smart grid
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Publication:6580894
DOI10.1002/asjc.2839MaRDI QIDQ6580894
Publication date: 30 July 2024
Published in: Asian Journal of Control (Search for Journal in Brave)
Cites Work
- Sliding-mode secure control for jump cyber-physical systems with malicious attacks
- Observer-based detection and reconstruction of dynamic load altering attack in smart grid
- Cyber attack estimation and detection for cyber-physical power systems
- Cyber-attacks against cyber-physical power systems security: state estimation, attacks reconstruction and defense strategy
- An Adaptive Control Architecture for Mitigating Sensor and Actuator Attacks in Cyber-Physical Systems
- Optimal Partial Feedback Attacks in Cyber-Physical Power Systems
- Adaptive Observer‐Based Global Sliding Mode Control for Uncertain Discrete‐Time Nonlinear Systems with Time‐Delays and Input Nonlinearity
- Attack Detection and Identification in Cyber-Physical Systems
- Observer‐based sliding mode control for state‐saturated systems under weighted try‐once‐discard protocol
- Guaranteed cost control of cyber-physical systems with packet dropouts under DoS jamming attacks
- Observer-based sensor attack diagnosis for cyber-physical systems via zonotope theory
Related Items (3)
Optimal control strategy by tracking and compensation for ICPS under the DoS attack ⋮ The sensor-actuators stealthy cyber-attacks framework on networked control systems: a data-driven approach ⋮ A distributed event-triggered dynamic average consensus scheme with a time-varying threshold and its application in DC microgrid
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