Differential game-based load frequency control for power networks and its integration with electricity market mechanisms

Yasuaki Wasa, Kengo Sakata, Kenji Hirata, Kenko Uchida

研究成果: Conference contribution

1 引用 (Scopus)

抄録

This paper proposes a novel load frequency control architecture based on differential games in energy supply-demand network integrating power networks and real-time electricity regulation markets. In order to establish the control architecture that each area minimizes his own cost independently on not only the electricity market layer but also the physical layer, we first present a novel load frequency control in power networks, where set-point signals from electricity markets depend on competitive bidding among utilities in each area and they are regarded as stationary disturbances in power networks. Then, we show that the control problem can be reduced to a finite-horizon differential game and the solution of the differential game control problem is analytically given by a feedback Nash equilibrium. The effectiveness of the proposed control mechanism is finally demonstrated through simulations with two-area power and electricity market network model.

元の言語English
ホスト出版物のタイトル1st Annual IEEE Conference on Control Technology and Applications, CCTA 2017
出版者Institute of Electrical and Electronics Engineers Inc.
ページ1044-1049
ページ数6
2017-January
ISBN(電子版)9781509021826
DOI
出版物ステータスPublished - 2017 10 6
イベント1st Annual IEEE Conference on Control Technology and Applications, CCTA 2017 - Kohala Coast, United States
継続期間: 2017 8 272017 8 30

Other

Other1st Annual IEEE Conference on Control Technology and Applications, CCTA 2017
United States
Kohala Coast
期間17/8/2717/8/30

Fingerprint

Electricity Market
Differential Games
Control Problem
Bidding
Market Model
Finite Horizon
Electricity
Nash Equilibrium
Point Sets
Network Model
Disturbance
Real-time
Minimise
Power markets
Loads (forces)
Costs
Energy
Feedback
Simulation
Architecture

ASJC Scopus subject areas

  • Theoretical Computer Science
  • Hardware and Architecture
  • Software
  • Control and Systems Engineering

これを引用

Wasa, Y., Sakata, K., Hirata, K., & Uchida, K. (2017). Differential game-based load frequency control for power networks and its integration with electricity market mechanisms. : 1st Annual IEEE Conference on Control Technology and Applications, CCTA 2017 (巻 2017-January, pp. 1044-1049). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/CCTA.2017.8062597

Differential game-based load frequency control for power networks and its integration with electricity market mechanisms. / Wasa, Yasuaki; Sakata, Kengo; Hirata, Kenji; Uchida, Kenko.

1st Annual IEEE Conference on Control Technology and Applications, CCTA 2017. 巻 2017-January Institute of Electrical and Electronics Engineers Inc., 2017. p. 1044-1049.

研究成果: Conference contribution

Wasa, Y, Sakata, K, Hirata, K & Uchida, K 2017, Differential game-based load frequency control for power networks and its integration with electricity market mechanisms. : 1st Annual IEEE Conference on Control Technology and Applications, CCTA 2017. 巻. 2017-January, Institute of Electrical and Electronics Engineers Inc., pp. 1044-1049, 1st Annual IEEE Conference on Control Technology and Applications, CCTA 2017, Kohala Coast, United States, 17/8/27. https://doi.org/10.1109/CCTA.2017.8062597
Wasa Y, Sakata K, Hirata K, Uchida K. Differential game-based load frequency control for power networks and its integration with electricity market mechanisms. : 1st Annual IEEE Conference on Control Technology and Applications, CCTA 2017. 巻 2017-January. Institute of Electrical and Electronics Engineers Inc. 2017. p. 1044-1049 https://doi.org/10.1109/CCTA.2017.8062597
Wasa, Yasuaki ; Sakata, Kengo ; Hirata, Kenji ; Uchida, Kenko. / Differential game-based load frequency control for power networks and its integration with electricity market mechanisms. 1st Annual IEEE Conference on Control Technology and Applications, CCTA 2017. 巻 2017-January Institute of Electrical and Electronics Engineers Inc., 2017. pp. 1044-1049
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