TY - GEN

T1 - Agent Services for Situation Aware Control of Power Systems With Distributed Generation

A1 - Saleem,Arshad

A1 - Heussen,Kai

A1 - Lind,Morten

AU - Saleem,Arshad

AU - Heussen,Kai

AU - Lind,Morten

PB - IEEE

CY - Alberta, Canada

PY - 2009

Y1 - 2009

N2 - Electric Power system of Denmark exhibits some unique characteristics. An increasing part of the electricity is produced by distributed generators (DGs). Most of these DGs are connected to the network at the distribution level. At the same time the concept of vehicle to grid (V2G) is already in the process of realization. This situation has created an incentive in electric power industry to utilize modern information and communication technologies (ICT) for improving the distribution system automation. This paper describes our work on how significantly increased amount of distributed generation could be exploited for the robust control of electric power systems. In particular, we present our work on the implementation of a dynamic service oriented system, in which autonomous agents represent different components of low voltage grid. These agents could offer and utilize electric power control services. We present results from several experiments where agents offer and utilize services in order to achieve distributed and autonomous control for subgrid operation of a distribution system. Finally it is discussed how the service oriented architecture can be combined with knowledge based reasoning to implement situation awareness required in complex control situations.

AB - Electric Power system of Denmark exhibits some unique characteristics. An increasing part of the electricity is produced by distributed generators (DGs). Most of these DGs are connected to the network at the distribution level. At the same time the concept of vehicle to grid (V2G) is already in the process of realization. This situation has created an incentive in electric power industry to utilize modern information and communication technologies (ICT) for improving the distribution system automation. This paper describes our work on how significantly increased amount of distributed generation could be exploited for the robust control of electric power systems. In particular, we present our work on the implementation of a dynamic service oriented system, in which autonomous agents represent different components of low voltage grid. These agents could offer and utilize electric power control services. We present results from several experiments where agents offer and utilize services in order to achieve distributed and autonomous control for subgrid operation of a distribution system. Finally it is discussed how the service oriented architecture can be combined with knowledge based reasoning to implement situation awareness required in complex control situations.

UR - http://www.ieee.org/portal/site/pes/menuitem.2b4756efb9a16c58fb2275875bac26c8/index.jsp?&pName=pes_level1&path=pes/calendars/conferences&file=conferences.xml&xsl=calendar.xsl#PES%20GM%20*2009-07-26

U2 - 10.1109/PES.2009.5260219

DO - 10.1109/PES.2009.5260219

SN - 978-1-4244-4241-6

BT - IEEE Power & Energy Society General Meeting, 2009. PES '09.

T2 - IEEE Power & Energy Society General Meeting, 2009. PES '09.

ER -