Autonomous agents and cooperation for the control of cascading failures in electric grids

Author

Hines, Paul ; Liao, Huaiwei ; Jia, Dong ; Talukdar, Sarosh

Author_Institution

Dept. of Eng. & Public Policy, Carnegie Mellon Univ., Pittsburgh, PA, USA

fYear

2005

fDate

19-22 March 2005

Firstpage

273

Lastpage

278

Abstract

A power system can be thought of as a stochastic hybrid system: a finite state machine whose states involve continuous variables with uncertain dynamics. Transitions in this machine correspond to outages of generation and transmission equipment. A cascading failure corresponds to a series of such transitions whose net effect is a blackout. We present evidence that the probability of cascading failures is subject to phase transitions - large and abrupt changes that result from only small changes in system stress. We suggest a network of distributed, autonomous agents to reduce the ill effects of cascading failures. These agents improve their decisions by cooperating (sharing goals and exchanging information with their neighbors). Results from experiments on the IEEE 118 bus test case are included.

Keywords

cascade systems; finite state machines; mobile agents; power engineering computing; power system interconnection; predictive control; stochastic systems; IEEE 118 bus test case; autonomous agents; cascading failures; electric grids; finite state machine; power system; stochastic hybrid system; Automata; Autonomous agents; Electric variables control; Hybrid power systems; Power system dynamics; Power system faults; Power system protection; Stochastic systems; Stress; Testing;

fLanguage

English

Publisher

ieee

Conference_Titel

Networking, Sensing and Control, 2005. Proceedings. 2005 IEEE

Print_ISBN

0-7803-8812-7

Type

conf

DOI

10.1109/ICNSC.2005.1461200

Filename

1461200