Fault‐tolerant controller design for nonlinear systems with multiple input and state delays based on sliding mode algorithm

Abstract: In this article, a novel sliding mode control (SMC) strategy for nonlinear Lipschitz systems with multiple and dissimilar time delays in the states and inputs is proposed. Using linear matrix inequality, a modified integral sliding surface scientifically based on which the innovative SMC approach is developed. Lyapunov–Krasovskii's theory is employed to guarantee asymptotic stability of the closed‐loop system, such that states starting from any arbitrary initial conditions reach the sliding surface in a finite… Show more

“…Azmi and Yazdizadeh 17 propose a novel sliding–mode fault–tolerant control strategy for nonlinear Lipschitz systems with multiple and dissimilar time delays in the states and inputs. The strategy is based on linear matrix inequalities and a modified integral sliding surface, and it is able to attenuate the effect of the actuator's faults.…”

Editorial: Sliding‐mode algorithms for state estimation and fault diagnosis

“…Azmi and Yazdizadeh 17 propose a novel sliding–mode fault–tolerant control strategy for nonlinear Lipschitz systems with multiple and dissimilar time delays in the states and inputs. The strategy is based on linear matrix inequalities and a modified integral sliding surface, and it is able to attenuate the effect of the actuator's faults.…”

Editorial: Sliding‐mode algorithms for state estimation and fault diagnosis

Adaptive delay dependent sliding mode fault-tolerant controller design for nonlinear systems with unknown time-varying input and state delays

Artificial intelligence based switching frequency regulation with fast terminal sliding mode control for DC–DC step-down converters