<p>This paper presents an active fault-tolerant control strategy for a class of nonlinear systems subject to both actuator and sensor faults. The system dynamics are assumed to be completely unknown, and only the measured outputs and the applied control inputs are used for system identification. Accordingly, the system is treated as a black-box model. The proposed control framework consists of three integrated subsystems. The first subsystem incorporates a Type-3 fuzzy logic system to model the unknown nonlinear dynamics, in conjunction with a model predictive controller and an adaptive stabilizing unit. The second subsystem is dedicated to sensor fault diagnosis and compensation, employing two Type-3 fuzzy estimators and a supervisory module that generates a corrective signal proportional to the magnitude of the actual sensor fault. The third subsystem constitutes a virtual structure composed of a virtual sensor, a virtual actuator, a Type-3 fuzzy identifier, a virtual model predictive controller, a virtual fault detection unit, an internal adaptive compensator, and a supervisory mechanism.</p>

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A virtual-structure-based type-3 fuzzy system for predictive sensor and actuator fault detection, compensation, and control in nonlinear systems

  • Xiaofeng Hong,
  • Nurkhat Zhakiyev,
  • Didar Yedilkhan,
  • Arman Khani,
  • Ardashir Mohammadzadeh,
  • Chunwei Zhang

摘要

This paper presents an active fault-tolerant control strategy for a class of nonlinear systems subject to both actuator and sensor faults. The system dynamics are assumed to be completely unknown, and only the measured outputs and the applied control inputs are used for system identification. Accordingly, the system is treated as a black-box model. The proposed control framework consists of three integrated subsystems. The first subsystem incorporates a Type-3 fuzzy logic system to model the unknown nonlinear dynamics, in conjunction with a model predictive controller and an adaptive stabilizing unit. The second subsystem is dedicated to sensor fault diagnosis and compensation, employing two Type-3 fuzzy estimators and a supervisory module that generates a corrective signal proportional to the magnitude of the actual sensor fault. The third subsystem constitutes a virtual structure composed of a virtual sensor, a virtual actuator, a Type-3 fuzzy identifier, a virtual model predictive controller, a virtual fault detection unit, an internal adaptive compensator, and a supervisory mechanism.