Add to ORKGThis paper addresses a new robust control methodology to enhance the power system stability and voltage regulation as an integrated design approach. The automatic voltage regulation (AVR) and power system stabilizer (PSS) design problems are reduced to solve a single H∞ based static output feedback control problem. To determine the optimal gains, an iterative linear matrix inequalities (LMI) algorithm is used. A four-machine infinite-bus system example is given to demonstrate the efficiency of developed approach. The proposed robust technique is shown to maintain the robust performance and minimize the effects of disturbances, properly
Today’s power systems are becoming heavily loaded and operating close to their stability limit. This...
Abstract: In stressed power systems with large induction machine component, there exist undamped ele...
In stressed power systems with large induction machine component, there exist undamped electrome- ch...
This paper addresses a new robust control methodology to enhance the power system stability and volt...
This paper addresses a control methodology to enhance stability and voltage regulation for the exist...
Robust control theory considers a fundamental and practically important issue in power system enviro...
This paper addresses an LMI (linear matrix inequalities) based robust control methodology for design...
Abstract: This paper presents a new robust control methodology to improve the power system transient...
In this paper, a power system model is proposed to achieve a decentralized voltage control scheme. A...
In this paper, a power system model is proposed to achieve a decentralized voltage control scheme. A...
Abstract This paper addresses the design problem of robust H2 output feedback controller for damping...
AbstractWith the development of power system interconnection, the low-frequency oscillation is becom...
Power systems are subject to undesirable small oscillations that might grow to cause system shutdown...
In this paper, a robust controller is developed for an automatic voltage regulator (AVR) in power sy...
With the development of power system interconnection, the low-frequency oscillation is becoming more...
Today’s power systems are becoming heavily loaded and operating close to their stability limit. This...
Abstract: In stressed power systems with large induction machine component, there exist undamped ele...
In stressed power systems with large induction machine component, there exist undamped electrome- ch...
This paper addresses a new robust control methodology to enhance the power system stability and volt...
This paper addresses a control methodology to enhance stability and voltage regulation for the exist...
Robust control theory considers a fundamental and practically important issue in power system enviro...
This paper addresses an LMI (linear matrix inequalities) based robust control methodology for design...
Abstract: This paper presents a new robust control methodology to improve the power system transient...
In this paper, a power system model is proposed to achieve a decentralized voltage control scheme. A...
In this paper, a power system model is proposed to achieve a decentralized voltage control scheme. A...
Abstract This paper addresses the design problem of robust H2 output feedback controller for damping...
AbstractWith the development of power system interconnection, the low-frequency oscillation is becom...
Power systems are subject to undesirable small oscillations that might grow to cause system shutdown...
In this paper, a robust controller is developed for an automatic voltage regulator (AVR) in power sy...
With the development of power system interconnection, the low-frequency oscillation is becoming more...
Today’s power systems are becoming heavily loaded and operating close to their stability limit. This...
Abstract: In stressed power systems with large induction machine component, there exist undamped ele...
In stressed power systems with large induction machine component, there exist undamped electrome- ch...