Add to ORKGA novel nonlinear fractional order sliding mode controller is proposed to control the chaotic atomic force microscope system in presence of uncertainties and disturbances. In the design of the suggested fractional order controller, conformable fractional order derivative is applied. The stability of the scheme is proved by means of the Lyapunov theory based on conformable fractional order derivative. The simulation results show the advantages of the designed controller such as fast convergence speed, high accuracy and robustness against uncertainties and disturbances
Most of the Real systems shows chaotic behavior when they approach complex states. Especially in phy...
This paper deals with chaos control in an arch microelectromechanical system (MEMS) from the fractio...
Backstepping control approach combined with sliding mode control (SMC) technique is utilized to real...
In this work, the nonlinear dynamics and control of an atomic force microscopy (AFM) in fractional-o...
In this paper, the problem of stabilizing a class of fractional-order chaotic systems with sector an...
In this paper, we investigate the mechanism of atomic force microscopy in tapping mode (AFM-TM) unde...
In this paper, a new adaptive fuzzy sliding mode control (AFSMC) design strategy is proposed for the...
In this paper, a new adaptive fuzzy sliding mode control (AFSMC) design strategy is proposed for the...
A new fractional-order chaotic system is addressed in this paper. By applying the continuous frequen...
In this study, the problem of the stabilisation of a class of nonautonomous nonlinear systems was st...
Specifically setting a time delay fractional financial system as the study object, this paper propos...
The novelty of this paper is the usage of a time-varying sliding surface with a fractional-order sli...
Some sufficient conditions, which are valid for stability check of fractional-order nonlinear system...
International audienceA sliding mode control is developed for robust stabilization of fractional-ord...
In this work, we deal with a micro electromechanical system (MEMS), represented by a micro-accelerom...
Most of the Real systems shows chaotic behavior when they approach complex states. Especially in phy...
This paper deals with chaos control in an arch microelectromechanical system (MEMS) from the fractio...
Backstepping control approach combined with sliding mode control (SMC) technique is utilized to real...
In this work, the nonlinear dynamics and control of an atomic force microscopy (AFM) in fractional-o...
In this paper, the problem of stabilizing a class of fractional-order chaotic systems with sector an...
In this paper, we investigate the mechanism of atomic force microscopy in tapping mode (AFM-TM) unde...
In this paper, a new adaptive fuzzy sliding mode control (AFSMC) design strategy is proposed for the...
In this paper, a new adaptive fuzzy sliding mode control (AFSMC) design strategy is proposed for the...
A new fractional-order chaotic system is addressed in this paper. By applying the continuous frequen...
In this study, the problem of the stabilisation of a class of nonautonomous nonlinear systems was st...
Specifically setting a time delay fractional financial system as the study object, this paper propos...
The novelty of this paper is the usage of a time-varying sliding surface with a fractional-order sli...
Some sufficient conditions, which are valid for stability check of fractional-order nonlinear system...
International audienceA sliding mode control is developed for robust stabilization of fractional-ord...
In this work, we deal with a micro electromechanical system (MEMS), represented by a micro-accelerom...
Most of the Real systems shows chaotic behavior when they approach complex states. Especially in phy...
This paper deals with chaos control in an arch microelectromechanical system (MEMS) from the fractio...
Backstepping control approach combined with sliding mode control (SMC) technique is utilized to real...