This paper presents the Direct Feedback Linearization (DFL) technique as a simple and flexible nonlinear control method in designing robust nonlinear excitation controllers for stability enhancement and voltage regulation of power systems. This techniqu
This paper presents a nonlinear controller design for a DSTATCOM connected to a distribution network...
This paper presents a nonlinear controller design for a DSTATCOM connected to a distribution network...
The dynamics of a large-scale power system are both nonlinear and interconnected. The equilibrium of...
A power system must be represented as a nonlinear system for large disturbances. Although power syst...
Control designs based on Geometric Feedback Linearization (GFL) and the so-called Direct Feedback Li...
International audienceIn this paper, a simple improved direct feedback linearization design method f...
To prevent an electric power system losing synchronism under a large sudden fault and to achieve vol...
This thesis studies voltage stability enhancement via advanced FACTS (Flexible AC Transmission Syste...
Improving the stability of synchronous generators under small and large disturbances is one of the m...
This research project focuses on the design of a new decentralized nonlinear voltage controller for ...
Major objectives in power system control design are to prevent an electric power system losing synch...
This paper addresses simultaneously the major fundamental and difficult issues of nonlinearity, unce...
The dynamics of a large-scale power system are both nonlinear and interconnected. The equilibrium of...
This thesis develops a nonlinear partial feedback linearizing control scheme for power systems. The ...
In this paper, a novel design method for determining the optimal PID controller parameters for non-l...
This paper presents a nonlinear controller design for a DSTATCOM connected to a distribution network...
This paper presents a nonlinear controller design for a DSTATCOM connected to a distribution network...
The dynamics of a large-scale power system are both nonlinear and interconnected. The equilibrium of...
A power system must be represented as a nonlinear system for large disturbances. Although power syst...
Control designs based on Geometric Feedback Linearization (GFL) and the so-called Direct Feedback Li...
International audienceIn this paper, a simple improved direct feedback linearization design method f...
To prevent an electric power system losing synchronism under a large sudden fault and to achieve vol...
This thesis studies voltage stability enhancement via advanced FACTS (Flexible AC Transmission Syste...
Improving the stability of synchronous generators under small and large disturbances is one of the m...
This research project focuses on the design of a new decentralized nonlinear voltage controller for ...
Major objectives in power system control design are to prevent an electric power system losing synch...
This paper addresses simultaneously the major fundamental and difficult issues of nonlinearity, unce...
The dynamics of a large-scale power system are both nonlinear and interconnected. The equilibrium of...
This thesis develops a nonlinear partial feedback linearizing control scheme for power systems. The ...
In this paper, a novel design method for determining the optimal PID controller parameters for non-l...
This paper presents a nonlinear controller design for a DSTATCOM connected to a distribution network...
This paper presents a nonlinear controller design for a DSTATCOM connected to a distribution network...
The dynamics of a large-scale power system are both nonlinear and interconnected. The equilibrium of...