An approximate dynamic integration mechanism for LQ power networks with multi-time scale structures

Toshiyuki Murao; Kenji Hirata; Kenko Uchida

doi:10.1109/ECC.2016.7810287

An approximate dynamic integration mechanism for LQ power networks with multi-time scale structures

Toshiyuki Murao, Kenji Hirata, Kenko Uchida

Electric and Electronic Engineering

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

2 Scopus citations

Abstract

This paper investigates a dynamic integration mechanism with a multi-time scale structure via economic theory for a power network system. The participant in the power network is divided into two kind of players, that are generators and/or consumers, called agents, and one public commission, called utility. In the power network, the dynamics of agents converges much faster than that of the utility. In this setting, based on singularly perturbation theory, we discuss the public control law that can maximize social welfare for the whole power network. Inspired by the transfer function in mechanism design theory, we design an approximate dynamic mechanism that integrates strategic determinations of private controls by the rational agents into the optimal public controls with real time pricings imposing monetary transfer costs. The proposed dynamic integration mechanism with a multi-time scale structure aims for both social welfare maximization and incentive compatibility.

Original language	English
Title of host publication	2016 European Control Conference, ECC 2016
Publisher	Institute of Electrical and Electronics Engineers Inc.
Pages	202-209
Number of pages	8
ISBN (Electronic)	9781509025916
DOIs	https://doi.org/10.1109/ECC.2016.7810287
State	Published - 2016
Event	2016 European Control Conference, ECC 2016 - Aalborg, Denmark Duration: 2016/06/29 → 2016/07/01

Publication series

Name	2016 European Control Conference, ECC 2016

Conference

Conference	2016 European Control Conference, ECC 2016
Country/Territory	Denmark
City	Aalborg
Period	2016/06/29 → 2016/07/01

ASJC Scopus subject areas

Control and Systems Engineering
Control and Optimization

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10.1109/ECC.2016.7810287

Cite this

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title = "An approximate dynamic integration mechanism for LQ power networks with multi-time scale structures",

abstract = "This paper investigates a dynamic integration mechanism with a multi-time scale structure via economic theory for a power network system. The participant in the power network is divided into two kind of players, that are generators and/or consumers, called agents, and one public commission, called utility. In the power network, the dynamics of agents converges much faster than that of the utility. In this setting, based on singularly perturbation theory, we discuss the public control law that can maximize social welfare for the whole power network. Inspired by the transfer function in mechanism design theory, we design an approximate dynamic mechanism that integrates strategic determinations of private controls by the rational agents into the optimal public controls with real time pricings imposing monetary transfer costs. The proposed dynamic integration mechanism with a multi-time scale structure aims for both social welfare maximization and incentive compatibility.",

author = "Toshiyuki Murao and Kenji Hirata and Kenko Uchida",

note = "Publisher Copyright: {\textcopyright} 2016 EUCA.; 2016 European Control Conference, ECC 2016 ; Conference date: 29-06-2016 Through 01-07-2016",

year = "2016",

doi = "10.1109/ECC.2016.7810287",

language = "英語",

series = "2016 European Control Conference, ECC 2016",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

pages = "202--209",

booktitle = "2016 European Control Conference, ECC 2016",

}

Murao, T, Hirata, K & Uchida, K 2016, An approximate dynamic integration mechanism for LQ power networks with multi-time scale structures. in 2016 European Control Conference, ECC 2016., 7810287, 2016 European Control Conference, ECC 2016, Institute of Electrical and Electronics Engineers Inc., pp. 202-209, 2016 European Control Conference, ECC 2016, Aalborg, Denmark, 2016/06/29. https://doi.org/10.1109/ECC.2016.7810287

An approximate dynamic integration mechanism for LQ power networks with multi-time scale structures. / Murao, Toshiyuki; Hirata, Kenji; Uchida, Kenko.
2016 European Control Conference, ECC 2016. Institute of Electrical and Electronics Engineers Inc., 2016. p. 202-209 7810287 (2016 European Control Conference, ECC 2016).

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

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N2 - This paper investigates a dynamic integration mechanism with a multi-time scale structure via economic theory for a power network system. The participant in the power network is divided into two kind of players, that are generators and/or consumers, called agents, and one public commission, called utility. In the power network, the dynamics of agents converges much faster than that of the utility. In this setting, based on singularly perturbation theory, we discuss the public control law that can maximize social welfare for the whole power network. Inspired by the transfer function in mechanism design theory, we design an approximate dynamic mechanism that integrates strategic determinations of private controls by the rational agents into the optimal public controls with real time pricings imposing monetary transfer costs. The proposed dynamic integration mechanism with a multi-time scale structure aims for both social welfare maximization and incentive compatibility.

AB - This paper investigates a dynamic integration mechanism with a multi-time scale structure via economic theory for a power network system. The participant in the power network is divided into two kind of players, that are generators and/or consumers, called agents, and one public commission, called utility. In the power network, the dynamics of agents converges much faster than that of the utility. In this setting, based on singularly perturbation theory, we discuss the public control law that can maximize social welfare for the whole power network. Inspired by the transfer function in mechanism design theory, we design an approximate dynamic mechanism that integrates strategic determinations of private controls by the rational agents into the optimal public controls with real time pricings imposing monetary transfer costs. The proposed dynamic integration mechanism with a multi-time scale structure aims for both social welfare maximization and incentive compatibility.

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T2 - 2016 European Control Conference, ECC 2016

Y2 - 29 June 2016 through 1 July 2016

ER -

An approximate dynamic integration mechanism for LQ power networks with multi-time scale structures

Abstract

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Conference

ASJC Scopus subject areas

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