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Delay-discretization-based sliding mode $$H_{infty }$$ load frequency control scheme considering actuator saturation of wind-integrated power system
Authors:Pradhan  Subrat Kumar  Das   Dushmanta Kumar
Affiliation:1.Department of Electrical and Electronics Engineering, National Institute of Technology Nagaland, Dimapur, 797103, India
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Abstract:

This paper investigates the combined effect of actuator saturation and time-delay on load frequency control (LFC) of a wind-integrated power system (WIPS). Actuator saturation is represented in two different approaches such as polytopic and sector bounding. Delay-discretization-based sliding mode (H_{infty }) control approach is proposed to design a novel LFC scheme. The proposed control scheme requires present as well as delayed states information as input to the controller. This requirement of control scheme is fulfilled by adopting a finite known delay. This finite known delay used in controller design is discretized into delay intervals. Lyapunov–Krasovskii functional is defined for each delay interval, and (H_{infty }) stabilization criteria for the closed loop WIPS are derived in linear matrix inequality framework using Wirtinger-based inequality. The proposed control scheme is tested by considering a numerical example of two-area WIPS.

Keywords:
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