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Design of nonsingular second-order terminal sliding mode controller for cyber-physical systems with time-delays and cyber-attack on actuators

Abbas Nemati, Saleh Mobayen, Seyed Hossein Rouhani, Chun‐Lien Su

2024International Journal of Systems Science19 citationsDOI

Abstract

This paper introduces an innovative adaptive nonsingular Second-Order Terminal Sliding Mode (SOTSM) control strategy specifically designed to stabilise disturbed nonlinear Cyber-Physical Systems (CPSs) within a finite timeframe. Unlike the conventional methods, our approach incorporates a novel nonlinear sliding surface that eliminates the need for a reaching step, significantly enhancing the system's robustness. Novel real-time adaptive control laws are developed to cope with external perturbations, time-varying delays, and cyber-attack on actuators without requiring the identification of their upper bounds. The proposed method ensures robust performance for time-varying delayed and disturbed nonlinear CPSs, even in the face of strong cyber-attacks targeting the actuators. Moreover, the proposed method has distinct advantages: it delivers rapid response times, enhanced flexibility, exceptional accuracy, smooth and robust control devoid of transient fluctuations or chattering, and ensures finite-time convergence. Simulation results comprehensively demonstrate the superior efficiency and success of our proposed technique compared to traditional methods such as integral Sliding Mode Control (SMC) and State-Feedback Control (SFC) schemes.

Topics & Concepts

Control theory (sociology)Robustness (evolution)ActuatorNonlinear systemSliding mode controlComputer scienceInvertible matrixTerminal sliding modeRobust controlControl engineeringEngineeringControl (management)MathematicsArtificial intelligenceGeneChemistryPhysicsQuantum mechanicsPure mathematicsBiochemistrySmart Grid Security and ResilienceNetwork Security and Intrusion DetectionExtremum Seeking Control Systems
Design of nonsingular second-order terminal sliding mode controller for cyber-physical systems with time-delays and cyber-attack on actuators | Litcius