Add to ORKGAbstract — This paper presents a novel approach for designing a decentralized controller for load frequency control of interconnected power areas. The proposed fuzzy logic load frequency controller (FLFC) has been designed to improve the dynamic performance of the frequency and tie line power under a sudden load change in the power areas. The effect of generation rate constraint (GRC) for both areas has been considered in the controller design. The proposed FLFC consists of two internal fuzzy logic controllers namely, the PD-like fuzzy logic controller and the PI-like fuzzy logic controller. The FLFC has been co-coordinated with the conventional integral controller. Time-domain simulations using MATALB/SIMULINK program has been performed to...
In this paper, a fuzzy logic controller is proposed for an application of HVDC link to stabilize the...
In power systems, both active and reactive power demands are never steady. Due to sudden load chang...
International Conference on Power, Energy Engineering and Management (PEEM) -- JAN 24-25, 2016 -- Ba...
This study focuses on designing an effective intelligent control method to stabilize the net frequen...
This study presents an application of a fuzzy gain scheduled proportional and integral (FGPI) contro...
Cam, Ertugrul/0000-0001-6491-9225WOS: 000233328300002This study presents an application of a fuzzy g...
Abstract—This work concentrates on designing an effectively intelligent control methodology to maint...
In this paper a new robust load frequency controller for two area interconnected power system is pre...
Abstract – This paper presents a variable structure based approach to the load frequency control sys...
In interconnected power system load frequency control has been used extensively. This study presents...
This paper presents a fuzzy application to the area of load-frequency control (LFC) using fuzzy gain...
Abstract — now days due to the increase in the interconnection of the power system, load as well as ...
Changes in electrical load in each system lead to frequency and voltage deviations, and if these cha...
Cam, Ertugrul/0000-0001-6491-9225WOS: 000224606300005This paper presents a fuzzy application to the ...
Abstract- Now a days the issue on Load frequency control in interconnected power system different ar...
In this paper, a fuzzy logic controller is proposed for an application of HVDC link to stabilize the...
In power systems, both active and reactive power demands are never steady. Due to sudden load chang...
International Conference on Power, Energy Engineering and Management (PEEM) -- JAN 24-25, 2016 -- Ba...
This study focuses on designing an effective intelligent control method to stabilize the net frequen...
This study presents an application of a fuzzy gain scheduled proportional and integral (FGPI) contro...
Cam, Ertugrul/0000-0001-6491-9225WOS: 000233328300002This study presents an application of a fuzzy g...
Abstract—This work concentrates on designing an effectively intelligent control methodology to maint...
In this paper a new robust load frequency controller for two area interconnected power system is pre...
Abstract – This paper presents a variable structure based approach to the load frequency control sys...
In interconnected power system load frequency control has been used extensively. This study presents...
This paper presents a fuzzy application to the area of load-frequency control (LFC) using fuzzy gain...
Abstract — now days due to the increase in the interconnection of the power system, load as well as ...
Changes in electrical load in each system lead to frequency and voltage deviations, and if these cha...
Cam, Ertugrul/0000-0001-6491-9225WOS: 000224606300005This paper presents a fuzzy application to the ...
Abstract- Now a days the issue on Load frequency control in interconnected power system different ar...
In this paper, a fuzzy logic controller is proposed for an application of HVDC link to stabilize the...
In power systems, both active and reactive power demands are never steady. Due to sudden load chang...
International Conference on Power, Energy Engineering and Management (PEEM) -- JAN 24-25, 2016 -- Ba...