To damp the low-frequency oscillations which occurred due to the disturbances in the electrical power system, the generators are equipped with Power System Stabilizer (PSS) that provide supplementary feedback stabilizing signals. The low-frequency oscillations in power system are classified as local mode oscillations, intra-area mode oscillation, and interarea mode oscillations. A suitable PSS model was selected considering the low frequencies oscillation in the inter-area mode based on conventional PSS and Fuzzy Logic Controller. Two types of (FIS) Mamdani and suggeno were considered in this paper. The software of the methods was executed using MATLAB R2015a package
A Power System Stabilizer (PSS) is the absolute most cost effective approach of increase the system ...
This paper proposes a Takagi-Sugeno (TS) fuzzy gain-scheduling PI stabilizer to damp the power syste...
A reliable and continuous supply of electric energy is essential for efficient functioning of the mo...
Modern power systems consist of several generators working synchronously to meet the Power demand. ...
A reliable and continuous supply of electric energy is essential for the functioning of today's comp...
Electro-mechanical oscillations are produced, in the machines of an interconnected power network, fo...
In general, power system oscillations are damped out using power system stabilizer (PSS). Conventio...
Small signal stability is the ability of the power system to maintain synchronism under small pertur...
This paper describes the design of a Fuzzy logic based controller to counter the small signal oscill...
In this paper, the application of the fuzzy logic based power systems stabilizer (FLPSS) to damp pow...
Damping of electro-mechanical oscillations in interconnected power systems is important to guarantee...
This paper presents the ability of the fuzzy logic-based stabilizer used to generate the supplementa...
This paper presents some interesting simulation results of a single machine infinite-bus system, wit...
In this paper, fuzzy power system stabilizer (FPSS) is being analyzed. Power system stabilizer (PSS)...
Power System Stabilizer (PSS) is well known to provide damping in low-frequency oscillation and impr...
A Power System Stabilizer (PSS) is the absolute most cost effective approach of increase the system ...
This paper proposes a Takagi-Sugeno (TS) fuzzy gain-scheduling PI stabilizer to damp the power syste...
A reliable and continuous supply of electric energy is essential for efficient functioning of the mo...
Modern power systems consist of several generators working synchronously to meet the Power demand. ...
A reliable and continuous supply of electric energy is essential for the functioning of today's comp...
Electro-mechanical oscillations are produced, in the machines of an interconnected power network, fo...
In general, power system oscillations are damped out using power system stabilizer (PSS). Conventio...
Small signal stability is the ability of the power system to maintain synchronism under small pertur...
This paper describes the design of a Fuzzy logic based controller to counter the small signal oscill...
In this paper, the application of the fuzzy logic based power systems stabilizer (FLPSS) to damp pow...
Damping of electro-mechanical oscillations in interconnected power systems is important to guarantee...
This paper presents the ability of the fuzzy logic-based stabilizer used to generate the supplementa...
This paper presents some interesting simulation results of a single machine infinite-bus system, wit...
In this paper, fuzzy power system stabilizer (FPSS) is being analyzed. Power system stabilizer (PSS)...
Power System Stabilizer (PSS) is well known to provide damping in low-frequency oscillation and impr...
A Power System Stabilizer (PSS) is the absolute most cost effective approach of increase the system ...
This paper proposes a Takagi-Sugeno (TS) fuzzy gain-scheduling PI stabilizer to damp the power syste...
A reliable and continuous supply of electric energy is essential for efficient functioning of the mo...