Multi-machine power systems stabilizing control using output feedback excitation system

T. Numajiri; G. Shirai; R. Yokoyama; S. Machi; G. Fujita

doi:10.1016/S14746670(17)34462-2

Multi-machine power systems stabilizing control using output feedback excitation system

T. Numajiri, G. Shirai, R. Yokoyama, S. Machi, G. Fujita

研究成果: Conference article

3 引用（Scopus）

抜粋

Electric network is now confronted with market deregulation or overload. Power System Stabilizer (PSS) is used to enhance capacity limits and improve transient stability, and it also make important role in the renewed system. This paper proposes design of excitation control with Fletcher-Powell method, which is non-linear mathematical optimization technique to realize output feedback control. The design procedure and the effectiveness are discussed through 5-machine system models. Scheme of decomposing control matrices for the large network is also discussed for successful application of the method.

元の言語	English
ページ（範囲）	169-173
ページ数	5
ジャーナル	IFAC Proceedings Volumes (IFAC-PapersOnline)
巻	36
発行部数	20
DOI	https://doi.org/10.1016/S14746670(17)34462-2
出版物ステータス	Published - 2003 1 1
イベント	5th IFAC Symposium on Power Plants and Power Systems Control 2003 - Seoul, Korea, Republic of 継続期間: 2003 9 15 → 2003 9 19

ASJC Scopus subject areas

Control and Systems Engineering

文献にアクセス

10.1016/S14746670(17)34462-2

フィンガープリント Multi-machine power systems stabilizing control using output feedback excitation system' の研究トピックを掘り下げます。これらはともに一意のフィンガープリントを構成します。

これを引用

Numajiri, T., Shirai, G., Yokoyama, R., Machi, S., & Fujita, G. (2003). Multi-machine power systems stabilizing control using output feedback excitation system. IFAC Proceedings Volumes (IFAC-PapersOnline), 36(20), 169-173. https://doi.org/10.1016/S14746670(17)34462-2

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abstract = "Electric network is now confronted with market deregulation or overload. Power System Stabilizer (PSS) is used to enhance capacity limits and improve transient stability, and it also make important role in the renewed system. This paper proposes design of excitation control with Fletcher-Powell method, which is non-linear mathematical optimization technique to realize output feedback control. The design procedure and the effectiveness are discussed through 5-machine system models. Scheme of decomposing control matrices for the large network is also discussed for successful application of the method.",

keywords = "Distributed control, Excitation control, Multi-machine power system, Output feedback method, Power system stabilizer",

author = "T. Numajiri and G. Shirai and R. Yokoyama and S. Machi and G. Fujita",

year = "2003",

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doi = "10.1016/S14746670(17)34462-2",

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T1 - Multi-machine power systems stabilizing control using output feedback excitation system

AU - Numajiri, T.

AU - Shirai, G.

AU - Yokoyama, R.

AU - Machi, S.

AU - Fujita, G.

PY - 2003/1/1

Y1 - 2003/1/1

N2 - Electric network is now confronted with market deregulation or overload. Power System Stabilizer (PSS) is used to enhance capacity limits and improve transient stability, and it also make important role in the renewed system. This paper proposes design of excitation control with Fletcher-Powell method, which is non-linear mathematical optimization technique to realize output feedback control. The design procedure and the effectiveness are discussed through 5-machine system models. Scheme of decomposing control matrices for the large network is also discussed for successful application of the method.

AB - Electric network is now confronted with market deregulation or overload. Power System Stabilizer (PSS) is used to enhance capacity limits and improve transient stability, and it also make important role in the renewed system. This paper proposes design of excitation control with Fletcher-Powell method, which is non-linear mathematical optimization technique to realize output feedback control. The design procedure and the effectiveness are discussed through 5-machine system models. Scheme of decomposing control matrices for the large network is also discussed for successful application of the method.

KW - Distributed control

KW - Excitation control

KW - Multi-machine power system

KW - Output feedback method

KW - Power system stabilizer

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