International audienceThis paper proposes a sliding surface which renders the system dynamics to start directly from itself without a reaching phase. More specifically, the system dynamics is insensitive to matched disturbances/uncertainties throughout the entire system response. The controller design based on reduced-order subsystem is still preserved. It is different from integral sliding mode in which the design is based on the full order of the system to reach the same objective. The simulation results of its application to a fractional inverted pendulum system is demonstrated
This chapter outlines some results concerning the application of second-order sliding-mode technique...
Abstract:- An advanced robust sliding mode control scheme is proposed for linear systems. First, bas...
In this study, the problem of the stabilisation of a class of nonautonomous nonlinear systems was st...
International audienceA sliding mode control is developed for robust stabilization of fractional-ord...
The novelty of this paper is the usage of a time-varying sliding surface with a fractional-order sli...
In this paper, a sliding mode control strategy is discussed for a class of nonlinear mechanical sub-...
Sliding mode control approaches are developed to stabilize a class of linear uncertain fractional-or...
A second-order sliding mode control scheme is developed to stabilize a class of linear uncertain fra...
This paper investigates the possible adoption of a fractional order sliding surface for the robust c...
The novelty of this paper is the usage of a time-varying sliding surface with a fractional-order sli...
A robust tracking control is proposed for the fractional‐order systems (FOSs) to achieve a tracking ...
This paper investigates the possible adoption of a fractional order sliding surface for the robust c...
This paper presents a new approach of fractional order sliding mode controllers (FOSMC) ...
This paper deals with applications of sliding-mode-based fractional control techniques to address tr...
In the last two decades fractional differential equations have been used more frequently in physics,...
This chapter outlines some results concerning the application of second-order sliding-mode technique...
Abstract:- An advanced robust sliding mode control scheme is proposed for linear systems. First, bas...
In this study, the problem of the stabilisation of a class of nonautonomous nonlinear systems was st...
International audienceA sliding mode control is developed for robust stabilization of fractional-ord...
The novelty of this paper is the usage of a time-varying sliding surface with a fractional-order sli...
In this paper, a sliding mode control strategy is discussed for a class of nonlinear mechanical sub-...
Sliding mode control approaches are developed to stabilize a class of linear uncertain fractional-or...
A second-order sliding mode control scheme is developed to stabilize a class of linear uncertain fra...
This paper investigates the possible adoption of a fractional order sliding surface for the robust c...
The novelty of this paper is the usage of a time-varying sliding surface with a fractional-order sli...
A robust tracking control is proposed for the fractional‐order systems (FOSs) to achieve a tracking ...
This paper investigates the possible adoption of a fractional order sliding surface for the robust c...
This paper presents a new approach of fractional order sliding mode controllers (FOSMC) ...
This paper deals with applications of sliding-mode-based fractional control techniques to address tr...
In the last two decades fractional differential equations have been used more frequently in physics,...
This chapter outlines some results concerning the application of second-order sliding-mode technique...
Abstract:- An advanced robust sliding mode control scheme is proposed for linear systems. First, bas...
In this study, the problem of the stabilisation of a class of nonautonomous nonlinear systems was st...