Modern microprocessor capabilities permit the control designer to consider using relatively complicated nonlinear control algorithms, which would have been considered impractical in the past. The paper presents the results of a study of the variable structure control technique for the design of excitation and governor controllers for a power system. Control laws for rotor angle and field flux are derived. The closed loop system is shown to be asymptotically stable. The system can be transferred to a new operating condition corresponding to any desired terminal voltage Vt and tie-line power Ptie
Over the years, many researchers have considered the problem of stabilizing uncertain systems. In va...
Chapter 3 considers static output feedback controller design for both nonlinear systems and intercon...
This paper presents a nonlinear excitation controller design technique for interconnected power syst...
Modern microprocessor capabilities permit the control designer to consider using relatively complica...
Modern microprocessor capabilities permit the control designer to consider using relatively complica...
Modern microprocessor capabilities permit the control designer to consider using relatively complica...
This paper presents the results of a study of the Inverse Control technique for the design of excita...
The primary aims of this thesis, is to provide a body of knowledge on variable structure system theo...
A class of output feedback controllers capable of reducing parameter sensitivities and rejecting dis...
The problem of observation and control of nonlinear/uncertain systems is addressed utilizing techniq...
The application of variable structure control (VSC) for power systems stabilization is studied in th...
The dynamics of a large-scale power system are both nonlinear and interconnected. The equilibrium of...
A general nonlinear system control problem with the concept of Variable Structure Systems (VSS) is s...
A nonlinear excitation controller for the uncertain parameters and external disturbances is designed...
The dynamics of a large-scale power system are both nonlinear and interconnected. The equilibrium of...
Over the years, many researchers have considered the problem of stabilizing uncertain systems. In va...
Chapter 3 considers static output feedback controller design for both nonlinear systems and intercon...
This paper presents a nonlinear excitation controller design technique for interconnected power syst...
Modern microprocessor capabilities permit the control designer to consider using relatively complica...
Modern microprocessor capabilities permit the control designer to consider using relatively complica...
Modern microprocessor capabilities permit the control designer to consider using relatively complica...
This paper presents the results of a study of the Inverse Control technique for the design of excita...
The primary aims of this thesis, is to provide a body of knowledge on variable structure system theo...
A class of output feedback controllers capable of reducing parameter sensitivities and rejecting dis...
The problem of observation and control of nonlinear/uncertain systems is addressed utilizing techniq...
The application of variable structure control (VSC) for power systems stabilization is studied in th...
The dynamics of a large-scale power system are both nonlinear and interconnected. The equilibrium of...
A general nonlinear system control problem with the concept of Variable Structure Systems (VSS) is s...
A nonlinear excitation controller for the uncertain parameters and external disturbances is designed...
The dynamics of a large-scale power system are both nonlinear and interconnected. The equilibrium of...
Over the years, many researchers have considered the problem of stabilizing uncertain systems. In va...
Chapter 3 considers static output feedback controller design for both nonlinear systems and intercon...
This paper presents a nonlinear excitation controller design technique for interconnected power syst...