Neural networks adaptive control for fractional‐order non‐linear system with unmodelled dynamics and actuator faults

Abstract: The fault-tolerant control (FTC) problem for fractional-order (FO) non-linear systems with unmodelled dynamics and actuator faults is studied. First, the author uses neural networks (NNs) to identify unknown non-linear functions and apply a FO dynamic signal to control unmodelled dynamics. Then, fractional-order dynamic surface control (FODSC) is introduced in the design process of the adaptive backstepping control algorithm to avoid complex explosion problems. In addition, an adaptive NNs FTC algorithm using … Show more

“…Fractional order calculus has been employed for many years in diverse fields of science such as applied mathematics, engineering and physics to improve the accuracy of modelling a real process [3,4]. In most of the existing research, the integer-order systems have been investigated.…”

Adaptive observer‐based control for fractional‐order chaotic MEMS system

“…Fractional order calculus has been employed for many years in diverse fields of science such as applied mathematics, engineering and physics to improve the accuracy of modelling a real process [3,4]. In most of the existing research, the integer-order systems have been investigated.…”

Adaptive observer‐based control for fractional‐order chaotic MEMS system

Adaptive fault-tolerant control for a class of nonstrict-feedback nonlinear systems with unmodeled dynamics and dead-zone output using multi-dimensional taylor networks