In this paper, two robust decentralised proportional integral (PI) control designs are proposed for load frequency control (LFC) with communication delays. In both methodologies, the PI based LFC problem is reduced to a static output feedback (SOF) control synthesis for a multiple delay system. The first one is based on the optimal Hinf control design using a linear matrix inequalities (LMI) technique. The second control design gives a suboptimal solution using a developed iterative linear matrix inequalities (ILMI) algorithm via the mixed H2/Hinf control technique. The control strategies are suitable for LFC applications that usually employ PI control. The proposed control strategies are applied to a three control area power system with ti...
The Load-Frequency Control (LFC) problem has been one of the major subjects in electric power system...
This paper proposes an effective method such that the robust load frequency control (LFC) scheme can...
In a deregulated environment, Load-frequency control (LFC), as an ancillary service essential for ma...
In this paper, two robust decentralised proportional integral (PI) control designs are proposed for ...
This paper addresses a robust decentralized proportional-integral (PI) control design for power syst...
This paper addresses a new method to design a PI-based load-frequency control (LFC) with communicati...
This paper addresses a control strategy to design a PIbased load-frequency control (LFC) in face of ...
This paper addresses a new method to design a PI-based load-frequency control (LFC) with communicati...
This paper addresses a robust decentralized proportional-integral control design for power system lo...
This paper addresses a robust control method to decentralized PI-based load-frequency control (LFC) ...
A robust control methodology for decentralized design of proportional-integral (PI) based load-frequ...
This paper addresses a new method for robust decentralized design of proportional-integral-based loa...
With the development and expansion of the power grid, the load frequency control (LFC) scheme receiv...
Load frequency control (LFC) has been one of the major subjects in electric power system design/oper...
This paper aims at developing a novel stability criterion to access the influence of the time-varyin...
The Load-Frequency Control (LFC) problem has been one of the major subjects in electric power system...
This paper proposes an effective method such that the robust load frequency control (LFC) scheme can...
In a deregulated environment, Load-frequency control (LFC), as an ancillary service essential for ma...
In this paper, two robust decentralised proportional integral (PI) control designs are proposed for ...
This paper addresses a robust decentralized proportional-integral (PI) control design for power syst...
This paper addresses a new method to design a PI-based load-frequency control (LFC) with communicati...
This paper addresses a control strategy to design a PIbased load-frequency control (LFC) in face of ...
This paper addresses a new method to design a PI-based load-frequency control (LFC) with communicati...
This paper addresses a robust decentralized proportional-integral control design for power system lo...
This paper addresses a robust control method to decentralized PI-based load-frequency control (LFC) ...
A robust control methodology for decentralized design of proportional-integral (PI) based load-frequ...
This paper addresses a new method for robust decentralized design of proportional-integral-based loa...
With the development and expansion of the power grid, the load frequency control (LFC) scheme receiv...
Load frequency control (LFC) has been one of the major subjects in electric power system design/oper...
This paper aims at developing a novel stability criterion to access the influence of the time-varyin...
The Load-Frequency Control (LFC) problem has been one of the major subjects in electric power system...
This paper proposes an effective method such that the robust load frequency control (LFC) scheme can...
In a deregulated environment, Load-frequency control (LFC), as an ancillary service essential for ma...