The synchronous generators have a natural different time scale dynamics. That is why for modeling and control design in such systems the methods of singular perturbations are widely used. In this paper the possibilities of sliding mode control design for synchronous generators are analyzed. With this aim the concept of singular perturbation is revised in order to use it for relay control system with a discontinuous slow-motion integral manifold. Obtained results are used for variable structure control of synchronous generator
Nonlinear systems are decomposed into slow and fast response subsystems using the singular perturbat...
The work developed and proposed in this paper deals with innovative control schemes applied to synch...
The closes loop dynamics of a sliding-mode controlled stand alone synchronous generator with a resis...
The synchronous generators have a natural different time scale dynamics. That is why for modeling an...
Based on the complete model of the plant, a sliding-mode stabilizing controller for synchronous gene...
2003-2004 > Academic research: refereed > Publication in refereed journalVersion of RecordPublishe
As a mathematical model of chattering in the small neihgbourhood of switching surface in the sliding...
When dealing with large scale systems, the dimension and ill condition of the state matrix motivate ...
The problem of angular velocity of rotor and voltage control in synchronous generator machines is co...
Abstract: Stable power systems in adverse operating conditions remain a constant quest of power comp...
This paper deals with the robust stabilization of continuous-time dynamical systems in the presence ...
The singularly perturbed systems are ill-conditioned systems exhibiting slow fast phenomena with com...
In control theory, sliding mode control, or SMC, is a nonlinear control method that alters the dynam...
The study of the discontinuous control systems has been maintained on high level in the course of th...
This paper reviews some recent results in applying singular perturbation theory to obtain simplified...
Nonlinear systems are decomposed into slow and fast response subsystems using the singular perturbat...
The work developed and proposed in this paper deals with innovative control schemes applied to synch...
The closes loop dynamics of a sliding-mode controlled stand alone synchronous generator with a resis...
The synchronous generators have a natural different time scale dynamics. That is why for modeling an...
Based on the complete model of the plant, a sliding-mode stabilizing controller for synchronous gene...
2003-2004 > Academic research: refereed > Publication in refereed journalVersion of RecordPublishe
As a mathematical model of chattering in the small neihgbourhood of switching surface in the sliding...
When dealing with large scale systems, the dimension and ill condition of the state matrix motivate ...
The problem of angular velocity of rotor and voltage control in synchronous generator machines is co...
Abstract: Stable power systems in adverse operating conditions remain a constant quest of power comp...
This paper deals with the robust stabilization of continuous-time dynamical systems in the presence ...
The singularly perturbed systems are ill-conditioned systems exhibiting slow fast phenomena with com...
In control theory, sliding mode control, or SMC, is a nonlinear control method that alters the dynam...
The study of the discontinuous control systems has been maintained on high level in the course of th...
This paper reviews some recent results in applying singular perturbation theory to obtain simplified...
Nonlinear systems are decomposed into slow and fast response subsystems using the singular perturbat...
The work developed and proposed in this paper deals with innovative control schemes applied to synch...
The closes loop dynamics of a sliding-mode controlled stand alone synchronous generator with a resis...