TY - GEN

T1 - Multi-agent based distributed power flow calculation

AU - Wolter, M.

AU - Guercke, H.

AU - Isermann, T.

AU - Hofmann, L.

PY - 2010/7/1

Y1 - 2010/7/1

N2 - Against the background of the increasing amount of distributed generation and the intention of local utilities to offer system services at the distribution level, a high degree of automation gets more and more necessary. Right now DG sources already are able to offer system services although these potentials often remain unused. Local utilities face these new challenges by applying energy management systems which essentially need information on the system state. Unfortunately, measurement is sparsely spread in distribution grids so the required data normally cannot be provided. The authors propose a new approach on managing distribution systems based on adaptive agents which are placed at different locations on the grid. They are able to locally control sources, loads and switches to keep the system state within tolerable bounds. In doing so, knowledge of the entire grid state becomes obsolete. For this purpose a decentralized power flow method is introduced. Depending on available local information each agent is able to calculate a system state. By communicating their results other agents can now react adequately. Furthermore, it is possible to infer on the entire system state as well.

AB - Against the background of the increasing amount of distributed generation and the intention of local utilities to offer system services at the distribution level, a high degree of automation gets more and more necessary. Right now DG sources already are able to offer system services although these potentials often remain unused. Local utilities face these new challenges by applying energy management systems which essentially need information on the system state. Unfortunately, measurement is sparsely spread in distribution grids so the required data normally cannot be provided. The authors propose a new approach on managing distribution systems based on adaptive agents which are placed at different locations on the grid. They are able to locally control sources, loads and switches to keep the system state within tolerable bounds. In doing so, knowledge of the entire grid state becomes obsolete. For this purpose a decentralized power flow method is introduced. Depending on available local information each agent is able to calculate a system state. By communicating their results other agents can now react adequately. Furthermore, it is possible to infer on the entire system state as well.

KW - distributed power generation

KW - energy management systems

KW - load flow

KW - power grids

KW - distributed power flow calculation

KW - multiagent calculation

KW - distributed generation

KW - DG sources

KW - local utility

KW - distribution grids

KW - adaptive agents

KW - Load flow

KW - Energy management

KW - Adaptive systems

KW - Face

KW - Artificial intelligence

KW - Diakoptics

KW - Adaptive Systems

KW - Distribution grids

KW - Energy management system

KW - Local utilities

KW - Measurement

KW - Multi-Agent-System

KW - Power system automation

KW - power flow

KW - System services

U2 - 10.1109/PES.2010.5589910

DO - 10.1109/PES.2010.5589910

M3 - Conference contribution

SP - 1

EP - 6

BT - IEEE PES General Meeting

ER -