Add to ORKGInput-state feedback linearization is discussed in this paper as a method for power system control. This method linearizes for a range of operating points and is more appropriate than the conventional methods since the operating point can change frequently in power systems. A single generator, infinite bus model is used to illustrate the design
In this paper, a nonlinear excitation controller is designed for multimachine power systems in order...
Power system stabilizers and other controllers are employed to damp oscillations in power systems, ...
This paper presents a nonlinear control design method for interconnected power systems with inductio...
Digital Object Identifier : 10.1109/CDC.1993.325913Input-state feedback linearization is discussed ...
In power system controls, simplified analytical models are used to represent the dynamics of power s...
Control designs based on Geometric Feedback Linearization (GFL) and the so-called Direct Feedback Li...
To maintain a high degree of reliability, the impact of major disturbances, such as a large sudden f...
This paper proposes an advanced nonlinear control algorithm to manage active power and voltage provi...
This paper proposes an advanced nonlinear control algorithm to manage active power and voltage provi...
Electrical power system (EPS) operation always follows load changes which occur within time. Load ch...
The dynamics of a large-scale power system are both nonlinear and interconnected. The equilibrium of...
One of the powerful methods of nonlinear control is the feedback linearization technique. This techn...
The dynamics of a large-scale power system are both nonlinear and interconnected. The equilibrium of...
Sampled data systems have come into practical importance for a variety of reasons. The earliest of ...
The effects of uncertainties in feedback linearizing control of power systems, following the occurre...
In this paper, a nonlinear excitation controller is designed for multimachine power systems in order...
Power system stabilizers and other controllers are employed to damp oscillations in power systems, ...
This paper presents a nonlinear control design method for interconnected power systems with inductio...
Digital Object Identifier : 10.1109/CDC.1993.325913Input-state feedback linearization is discussed ...
In power system controls, simplified analytical models are used to represent the dynamics of power s...
Control designs based on Geometric Feedback Linearization (GFL) and the so-called Direct Feedback Li...
To maintain a high degree of reliability, the impact of major disturbances, such as a large sudden f...
This paper proposes an advanced nonlinear control algorithm to manage active power and voltage provi...
This paper proposes an advanced nonlinear control algorithm to manage active power and voltage provi...
Electrical power system (EPS) operation always follows load changes which occur within time. Load ch...
The dynamics of a large-scale power system are both nonlinear and interconnected. The equilibrium of...
One of the powerful methods of nonlinear control is the feedback linearization technique. This techn...
The dynamics of a large-scale power system are both nonlinear and interconnected. The equilibrium of...
Sampled data systems have come into practical importance for a variety of reasons. The earliest of ...
The effects of uncertainties in feedback linearizing control of power systems, following the occurre...
In this paper, a nonlinear excitation controller is designed for multimachine power systems in order...
Power system stabilizers and other controllers are employed to damp oscillations in power systems, ...
This paper presents a nonlinear control design method for interconnected power systems with inductio...