Wayne W. Weaver scite author profile

A power system is a collection of individual components that compete for system resources. This paper presents a game theoretic approach to the control decision process of individual sources and loads in small-scale and dc power systems. Framing the power system as a game between players facilitates the definition of individual objectives, which adds modularity and adaptability. The proposed methodology enhances the reliability and robustness of the system by avoiding the need for a central or supervisory control. It is also a way to integrate and combine supply and demand side management into a single approach. Examples are presented that use a simple nine bus dc power system to demonstrate the proposed method for various scenarios and player formulations.Index Terms-DC power systems, demand side management, distributed control, distributed energy, game theory, microgrids.

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Survey of multi-agent systems for microgrid control

Kantamneni

Brown

Parker

et al. 2015

Engineering Applications of Artificial Intelligence

205

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The Load as an Energy Asset in a Distributed DC SmartGrid Architecture

Balog

Weaver

Krein

2012

IEEE Trans. Smart Grid

145

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Telecommunications Power Plant Damage Assessment for Hurricane Katrina– Site Survey and Follow-Up Results

Kwasinski

Weaver

Chapman

et al. 2009

IEEE Systems Journal

123

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Distributed control and energy storage requirements of networked Dc microgrids

Weaver

Robinett

Parker

et al. 2015

Control Engineering Practice

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a b s t r a c tMicrogrids are a key technology to help improve the reliability of electric power systems and increase the integration of renewable energy sources. Interconnection and networking of smaller microgrids into larger systems have potential for even further improvements. This paper presents a novel approach to a distributed droop control and energy storage in networked dc microgrids. Distributed control is necessary to prevent single points of failure along with flexibility and adaptability to changing energy resources. The results show that systems with random sources and fast update rates, a networked microgrid structure can minimize required energy storage requirements.

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Wayne W. Weaver

Game-Theoretic Control of Small-Scale Power Systems

Survey of multi-agent systems for microgrid control

The Load as an Energy Asset in a Distributed DC SmartGrid Architecture

Telecommunications Power Plant Damage Assessment for Hurricane Katrina– Site Survey and Follow-Up Results

Distributed control and energy storage requirements of networked Dc microgrids

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