Saturated robust power system stabilizers

Hisham M. Soliman; Hassan A. Yousef

doi:10.1016/j.ijepes.2015.05.045

Saturated robust power system stabilizers

Hisham M. Soliman^*, Hassan A. Yousef

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

26 Citations (Scopus)

Abstract

In this paper, a new saturated control design for uncertain power systems is proposed. The developed saturated control scheme is based on linear matrix inequality (LMI) optimization to achieve prescribed dynamic performance measures, e.g., settling time and damping ratio. In this design, the closed-loop poles are forced to lie within a desired region. The proposed design provides robustness against system uncertainties. The simulation results of both a single machine infinite bus and a multi-machine power systems are given to validate the effectiveness of the proposed controller.

Original language	English
Pages (from-to)	608-614
Number of pages	7
Journal	International Journal of Electrical Power and Energy Systems
Volume	73
DOIs	https://doi.org/10.1016/j.ijepes.2015.05.045
Publication status	Published - Jun 11 2015
Externally published	Yes

Keywords

Linear matrix inequality (LMI)
Power system stabilizer
Regional pole placement
Robust control
Saturated control

ASJC Scopus subject areas

Energy Engineering and Power Technology
Electrical and Electronic Engineering

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10.1016/j.ijepes.2015.05.045

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abstract = "In this paper, a new saturated control design for uncertain power systems is proposed. The developed saturated control scheme is based on linear matrix inequality (LMI) optimization to achieve prescribed dynamic performance measures, e.g., settling time and damping ratio. In this design, the closed-loop poles are forced to lie within a desired region. The proposed design provides robustness against system uncertainties. The simulation results of both a single machine infinite bus and a multi-machine power systems are given to validate the effectiveness of the proposed controller.",

keywords = "Linear matrix inequality (LMI), Power system stabilizer, Regional pole placement, Robust control, Saturated control",

author = "Soliman, {Hisham M.} and Yousef, {Hassan A.}",

year = "2015",

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doi = "10.1016/j.ijepes.2015.05.045",

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pages = "608--614",

journal = "International Journal of Electrical Power and Energy Systems",

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T1 - Saturated robust power system stabilizers

AU - Soliman, Hisham M.

AU - Yousef, Hassan A.

PY - 2015/6/11

Y1 - 2015/6/11

N2 - In this paper, a new saturated control design for uncertain power systems is proposed. The developed saturated control scheme is based on linear matrix inequality (LMI) optimization to achieve prescribed dynamic performance measures, e.g., settling time and damping ratio. In this design, the closed-loop poles are forced to lie within a desired region. The proposed design provides robustness against system uncertainties. The simulation results of both a single machine infinite bus and a multi-machine power systems are given to validate the effectiveness of the proposed controller.

AB - In this paper, a new saturated control design for uncertain power systems is proposed. The developed saturated control scheme is based on linear matrix inequality (LMI) optimization to achieve prescribed dynamic performance measures, e.g., settling time and damping ratio. In this design, the closed-loop poles are forced to lie within a desired region. The proposed design provides robustness against system uncertainties. The simulation results of both a single machine infinite bus and a multi-machine power systems are given to validate the effectiveness of the proposed controller.

KW - Linear matrix inequality (LMI)

KW - Power system stabilizer

KW - Regional pole placement

KW - Robust control

KW - Saturated control

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VL - 73

SP - 608

EP - 614

JO - International Journal of Electrical Power and Energy Systems

JF - International Journal of Electrical Power and Energy Systems

ER -

Saturated robust power system stabilizers

Abstract

Keywords

ASJC Scopus subject areas

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