Robust PSS design under multioperating conditions using canonical Particle Swarm Optimization

Z. Wang; C. Y. Chung; K. P. Wong; C. T. Tse; K. W. Wang

doi:10.1109/PES.2007.386108

Robust PSS design under multioperating conditions using canonical Particle Swarm Optimization

Z. Wang, C. Y. Chung, K. P. Wong, C. T. Tse, K. W. Wang

Research output: Chapter in book / Conference proceeding › Conference article published in proceeding or book › Academic research › peer-review

4 Citations (Scopus)

Abstract

Power System Stabilizer (PSS) is one the most economical and effective controllers to enhance the power system damping. Under multioperating conditions, the probabilistic PSS (PPSS) design problem can be formulated as a parameter optimization problem with probabilistic eigenanalysis included and the statistical nature of the eigenvalues is described by their expectations and variances. This paper uses the canonical Particle Swarm Optimization to address PPSS design problem so as to overcome the deficiency of traditional derivative-based methods and other heuristic techniques. The effectiveness and robustness of the proposed PSS design approach has been tested based on a three-machine system. A comparison between the proposed approach and a conventional sensitivity-based PSS design method is conducted by nonlinear time domain simulation and the results show the effectiveness of proposed approach. Two performance indices are calculated and the results are in consistence with the transient process simulation.

Original language	English
Title of host publication	2007 IEEE Power Engineering Society General Meeting, PES
DOIs	https://doi.org/10.1109/PES.2007.386108
Publication status	Published - Jun 2007
Event	2007 IEEE Power Engineering Society General Meeting, PES - Tampa, FL, United States Duration: 24 Jun 2007 → 28 Jun 2007

Publication series

Name	2007 IEEE Power Engineering Society General Meeting, PES

Conference

Conference	2007 IEEE Power Engineering Society General Meeting, PES
Country/Territory	United States
City	Tampa, FL
Period	24/06/07 → 28/06/07

Keywords

Eigenvalue
Particle Swarm Optimization
Power system stabilizer (PSS)
Probability theory
Robustness

ASJC Scopus subject areas

General Energy

More information

10.1109/PES.2007.386108

Cite this

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title = "Robust PSS design under multioperating conditions using canonical Particle Swarm Optimization",

abstract = "Power System Stabilizer (PSS) is one the most economical and effective controllers to enhance the power system damping. Under multioperating conditions, the probabilistic PSS (PPSS) design problem can be formulated as a parameter optimization problem with probabilistic eigenanalysis included and the statistical nature of the eigenvalues is described by their expectations and variances. This paper uses the canonical Particle Swarm Optimization to address PPSS design problem so as to overcome the deficiency of traditional derivative-based methods and other heuristic techniques. The effectiveness and robustness of the proposed PSS design approach has been tested based on a three-machine system. A comparison between the proposed approach and a conventional sensitivity-based PSS design method is conducted by nonlinear time domain simulation and the results show the effectiveness of proposed approach. Two performance indices are calculated and the results are in consistence with the transient process simulation.",

keywords = "Eigenvalue, Particle Swarm Optimization, Power system stabilizer (PSS), Probability theory, Robustness",

author = "Z. Wang and Chung, {C. Y.} and Wong, {K. P.} and Tse, {C. T.} and Wang, {K. W.}",

year = "2007",

month = jun,

doi = "10.1109/PES.2007.386108",

language = "English",

isbn = "1424412986",

series = "2007 IEEE Power Engineering Society General Meeting, PES",

booktitle = "2007 IEEE Power Engineering Society General Meeting, PES",

note = "2007 IEEE Power Engineering Society General Meeting, PES ; Conference date: 24-06-2007 Through 28-06-2007",

}

Wang, Z, Chung, CY, Wong, KP, Tse, CT & Wang, KW 2007, Robust PSS design under multioperating conditions using canonical Particle Swarm Optimization. in 2007 IEEE Power Engineering Society General Meeting, PES., 4275874, 2007 IEEE Power Engineering Society General Meeting, PES, 2007 IEEE Power Engineering Society General Meeting, PES, Tampa, FL, United States, 24/06/07. https://doi.org/10.1109/PES.2007.386108

Robust PSS design under multioperating conditions using canonical Particle Swarm Optimization. / Wang, Z.; Chung, C. Y.; Wong, K. P. et al.
2007 IEEE Power Engineering Society General Meeting, PES. 2007. 4275874 (2007 IEEE Power Engineering Society General Meeting, PES).

Research output: Chapter in book / Conference proceeding › Conference article published in proceeding or book › Academic research › peer-review

TY - GEN

T1 - Robust PSS design under multioperating conditions using canonical Particle Swarm Optimization

AU - Wang, Z.

AU - Chung, C. Y.

AU - Wong, K. P.

AU - Tse, C. T.

AU - Wang, K. W.

PY - 2007/6

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AB - Power System Stabilizer (PSS) is one the most economical and effective controllers to enhance the power system damping. Under multioperating conditions, the probabilistic PSS (PPSS) design problem can be formulated as a parameter optimization problem with probabilistic eigenanalysis included and the statistical nature of the eigenvalues is described by their expectations and variances. This paper uses the canonical Particle Swarm Optimization to address PPSS design problem so as to overcome the deficiency of traditional derivative-based methods and other heuristic techniques. The effectiveness and robustness of the proposed PSS design approach has been tested based on a three-machine system. A comparison between the proposed approach and a conventional sensitivity-based PSS design method is conducted by nonlinear time domain simulation and the results show the effectiveness of proposed approach. Two performance indices are calculated and the results are in consistence with the transient process simulation.

KW - Eigenvalue

KW - Particle Swarm Optimization

KW - Power system stabilizer (PSS)

KW - Probability theory

KW - Robustness

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T3 - 2007 IEEE Power Engineering Society General Meeting, PES

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Robust PSS design under multioperating conditions using canonical Particle Swarm Optimization

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