Using adaptive fuzzy inference system for voltage ranking

K.L. Lo, Z. Meng

Research output: Contribution to journalArticle

4 Citations (Scopus)

Abstract

Voltage ranking is an important part of power system security assessment. The commonly used performance index method with a low exponent could suffer from masking effects. This paper proposes a generic compensation factor to reduce the masking problem. An adaptive fuzzy system is used for the calculation of the generic compensation factor. A simplification of the defuzzification process is proposed for improvement of computational efficiency. Convergence analysis shows that values calculated by the adaptive fuzzy system are good approximations. The parameters would only need to be calculated offline once. They can then be applied to various systems for voltage ranking applications. To save computational efforts further, a hybrid strategy is introduced to reduce the number of fuzzy rules. A good ranking method needs an efficient method to derive voltage deviations. Besides the commonly used 1P-1Q calculation method, an alternative method is used for the calculation of voltage deviations. A new version of the ranking assessment diagram is proposed for the presentation of ranking results. Ranking results from two test power systems have been presented to verify the effectiveness of the proposed strategy.
LanguageEnglish
Pages183-191
Number of pages8
JournalIEE Proceedings Generation Transmission and Distribution
Volume151
Issue number2
DOIs
Publication statusPublished - 2004

Fingerprint

Fuzzy inference
Electric potential
Fuzzy systems
Fuzzy rules
Computational efficiency
Security systems
Compensation and Redress

Keywords

  • adaptive systems
  • fuzzy systems
  • inference mechanisms
  • performance index
  • power system planning
  • power system security

Cite this

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title = "Using adaptive fuzzy inference system for voltage ranking",
abstract = "Voltage ranking is an important part of power system security assessment. The commonly used performance index method with a low exponent could suffer from masking effects. This paper proposes a generic compensation factor to reduce the masking problem. An adaptive fuzzy system is used for the calculation of the generic compensation factor. A simplification of the defuzzification process is proposed for improvement of computational efficiency. Convergence analysis shows that values calculated by the adaptive fuzzy system are good approximations. The parameters would only need to be calculated offline once. They can then be applied to various systems for voltage ranking applications. To save computational efforts further, a hybrid strategy is introduced to reduce the number of fuzzy rules. A good ranking method needs an efficient method to derive voltage deviations. Besides the commonly used 1P-1Q calculation method, an alternative method is used for the calculation of voltage deviations. A new version of the ranking assessment diagram is proposed for the presentation of ranking results. Ranking results from two test power systems have been presented to verify the effectiveness of the proposed strategy.",
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Using adaptive fuzzy inference system for voltage ranking. / Lo, K.L.; Meng, Z.

In: IEE Proceedings Generation Transmission and Distribution, Vol. 151, No. 2, 2004, p. 183-191.

Research output: Contribution to journalArticle

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