Indirect adaptive fuzzy coordinated excitation and SVC control for multi-machine power system

Hasan A. Yousef; Manal A. Wahba; Bousmaha Bouchiba

doi:10.1109/ICCES.2006.320422

Indirect adaptive fuzzy coordinated excitation and SVC control for multi-machine power system

Hasan A. Yousef, Manal A. Wahba, Bousmaha Bouchiba

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

4 Citations (Scopus)

Abstract

Coordinated control scheme for generator excitation and Static VAR Compensator (SVC) using an Indirect Adaptive Fuzzy logic Control (IAFLC) of multi-machine power systems based on multi-input-multi-output feedback linearization technique is developed in this paper. The power system considered in this paper consists of two generators and infinite bus connected through a network of transformers and transmission lines. The fuzzy controller is constructed from fuzzy feedback linearization controller whose parameters are adjusted indirectly from the estimates of plant parameters. The adaptation law adjusts the controller parameters on-line so that the plant outputs tracks the reference model outputs. Simulation results show that the proposed IAFLC controller, compared with a controller based on traditional linearization technique enhances the transient stability of the power system under sever abnormalities.

Original language	English
Title of host publication	2006 International Conference on Computer Engineering and Systems, ICCES'06
Pages	39-44
Number of pages	6
DOIs	https://doi.org/10.1109/ICCES.2006.320422
Publication status	Published - 2006
Externally published	Yes
Event	2006 International Conference on Computer Engineering and Systems, ICCES'06 - Cairo, Egypt Duration: Nov 5 2006 → Nov 7 2006

Publication series

Name	2006 International Conference on Computer Engineering and Systems, ICCES'06

Other

Other	2006 International Conference on Computer Engineering and Systems, ICCES'06
Country/Territory	Egypt
City	Cairo
Period	11/5/06 → 11/7/06

ASJC Scopus subject areas

Computer Science Applications

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10.1109/ICCES.2006.320422

Cite this

Yousef, H. A., Wahba, M. A., & Bouchiba, B. (2006). Indirect adaptive fuzzy coordinated excitation and SVC control for multi-machine power system. In 2006 International Conference on Computer Engineering and Systems, ICCES'06 (pp. 39-44). Article 4115482 (2006 International Conference on Computer Engineering and Systems, ICCES'06). https://doi.org/10.1109/ICCES.2006.320422

Indirect adaptive fuzzy coordinated excitation and SVC control for multi-machine power system. / Yousef, Hasan A.; Wahba, Manal A.; Bouchiba, Bousmaha.
2006 International Conference on Computer Engineering and Systems, ICCES'06. 2006. p. 39-44 4115482 (2006 International Conference on Computer Engineering and Systems, ICCES'06).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Yousef, HA, Wahba, MA & Bouchiba, B 2006, Indirect adaptive fuzzy coordinated excitation and SVC control for multi-machine power system. in 2006 International Conference on Computer Engineering and Systems, ICCES'06., 4115482, 2006 International Conference on Computer Engineering and Systems, ICCES'06, pp. 39-44, 2006 International Conference on Computer Engineering and Systems, ICCES'06, Cairo, Egypt, 11/5/06. https://doi.org/10.1109/ICCES.2006.320422

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abstract = "Coordinated control scheme for generator excitation and Static VAR Compensator (SVC) using an Indirect Adaptive Fuzzy logic Control (IAFLC) of multi-machine power systems based on multi-input-multi-output feedback linearization technique is developed in this paper. The power system considered in this paper consists of two generators and infinite bus connected through a network of transformers and transmission lines. The fuzzy controller is constructed from fuzzy feedback linearization controller whose parameters are adjusted indirectly from the estimates of plant parameters. The adaptation law adjusts the controller parameters on-line so that the plant outputs tracks the reference model outputs. Simulation results show that the proposed IAFLC controller, compared with a controller based on traditional linearization technique enhances the transient stability of the power system under sever abnormalities.",

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doi = "10.1109/ICCES.2006.320422",

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series = "2006 International Conference on Computer Engineering and Systems, ICCES'06",

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AU - Yousef, Hasan A.

AU - Wahba, Manal A.

AU - Bouchiba, Bousmaha

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N2 - Coordinated control scheme for generator excitation and Static VAR Compensator (SVC) using an Indirect Adaptive Fuzzy logic Control (IAFLC) of multi-machine power systems based on multi-input-multi-output feedback linearization technique is developed in this paper. The power system considered in this paper consists of two generators and infinite bus connected through a network of transformers and transmission lines. The fuzzy controller is constructed from fuzzy feedback linearization controller whose parameters are adjusted indirectly from the estimates of plant parameters. The adaptation law adjusts the controller parameters on-line so that the plant outputs tracks the reference model outputs. Simulation results show that the proposed IAFLC controller, compared with a controller based on traditional linearization technique enhances the transient stability of the power system under sever abnormalities.

AB - Coordinated control scheme for generator excitation and Static VAR Compensator (SVC) using an Indirect Adaptive Fuzzy logic Control (IAFLC) of multi-machine power systems based on multi-input-multi-output feedback linearization technique is developed in this paper. The power system considered in this paper consists of two generators and infinite bus connected through a network of transformers and transmission lines. The fuzzy controller is constructed from fuzzy feedback linearization controller whose parameters are adjusted indirectly from the estimates of plant parameters. The adaptation law adjusts the controller parameters on-line so that the plant outputs tracks the reference model outputs. Simulation results show that the proposed IAFLC controller, compared with a controller based on traditional linearization technique enhances the transient stability of the power system under sever abnormalities.

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Indirect adaptive fuzzy coordinated excitation and SVC control for multi-machine power system

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