The novelty of this paper is the usage of a time-varying sliding surface with a fractional-order sliding mode controller. The objective of the controller is to allow the system states to move to the sliding surface and remain on it so as to ensure the asymptotic stability of the closed-loop system. The Lyapunov stability method is adopted to verify the stability of the controller. Firstly, by using the geometric coordinate transformation that is formerly defined for conventional sliding mode controller, a novel fractional-order sliding surface is defined. The time-varying fractional-order sliding surface is then rotated in the region in which the system state trajectories are stable. The adjustment of the sliding surface slope on the new co...
This paper presents a novel parameter tuning law that forces the emergence of a sliding motion in th...
In this study, a sliding mode controller with a linear time-varying sliding surface is proposed for ...
Dynamic behaviour of a system in sliding mode is entirely deÞned by the sliding surface. Customarily...
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-...
In this study, with the help of a disturbance observer, an adaptive fractional-order sliding mode co...
International audienceA sliding mode control is developed for robust stabilization of fractional-ord...
In this study, the problem of the stabilisation of a class of nonautonomous nonlinear systems was st...
The present paper investigates a fixed-time tracking control with fractional-order dynamics for a qu...
In this study, a sliding mode controller with a linear time-varying sliding surface is proposed for ...
International audienceThis paper proposes a sliding surface which renders the system dynamics to sta...
This paper proposes a novel robust control method for the control of a 7-DOF exoskeleton robot. The ...
The main objective of this study is to propose new approaches for on-line tuning of the linear slidi...
This paper investigates the possible adoption of a fractional order sliding surface for the robust c...
This paper presents the development of a Proportional Integral sliding mode controller to control a ...
This paper presents a novel parameter tuning law that forces the emergence of a sliding motion in th...
In this study, a sliding mode controller with a linear time-varying sliding surface is proposed for ...
Dynamic behaviour of a system in sliding mode is entirely deÞned by the sliding surface. Customarily...
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-...
In this study, with the help of a disturbance observer, an adaptive fractional-order sliding mode co...
International audienceA sliding mode control is developed for robust stabilization of fractional-ord...
In this study, the problem of the stabilisation of a class of nonautonomous nonlinear systems was st...
The present paper investigates a fixed-time tracking control with fractional-order dynamics for a qu...
In this study, a sliding mode controller with a linear time-varying sliding surface is proposed for ...
International audienceThis paper proposes a sliding surface which renders the system dynamics to sta...
This paper proposes a novel robust control method for the control of a 7-DOF exoskeleton robot. The ...
The main objective of this study is to propose new approaches for on-line tuning of the linear slidi...
This paper investigates the possible adoption of a fractional order sliding surface for the robust c...
This paper presents the development of a Proportional Integral sliding mode controller to control a ...
This paper presents a novel parameter tuning law that forces the emergence of a sliding motion in th...
In this study, a sliding mode controller with a linear time-varying sliding surface is proposed for ...
Dynamic behaviour of a system in sliding mode is entirely deÞned by the sliding surface. Customarily...