Agent-Based Modeling of Distributed Generation in Power System Control

Authored by Daniel Divenyi, Andras M. Dan

Date Published: 2013-10

DOI: 10.1109/tste.2013.2253811

Sponsors: No sponsors listed

Platforms: Eclipse Java Agent Development Environment (JADE)

Model Documentation: Other Narrative Mathematical description

Model Code URLs: Model code not found

Abstract

The small generation units including cogeneration units and renewables have been widely spread during the last decades. These units raise several questions regarding the power system, e.g., their integration into power system control or their role on the supply-side of smart grids. A multiagent model was established in order to facilitate the investigations of the emerged questions. Several viewpoints are taken into account and built into the model considering technical specifications, proper wind-speed and temperature simulations, constraints of heating service, fuel consumption, legal regulation, outages, and services. A state-based method is elaborated in order to generalize different technologies. The different aspects of operation control are represented by agent strategies. Applying these methods resulted in an easy-to-follow and flexible model. This paper is dealing with the developed multiagent-based model applied to study the distributed generation system from many viewpoints like power system balance, virtual power plant, or smart grid scheduling.

Tags

distributed generation Agent strategies multiagent model state-based method utility-based agent-program