Title :
Demand Response in Electricity Markets
Author :
Tellidou, A.C. ; Bakirtzis, A.G.
Abstract :
In this paper agent-based simulation is employed to study the effect of demand-side bidding in the exercise of monopoly power by generators. The energy market is formulated as a stochastic game, where each stage game corresponds to an hourly energy auction. Each hourly energy auction is cleared using locational marginal pricing. Generators and consumers are modeled as adaptive agents capable of learning through the interaction with their environment, following a reinforcement learning algorithm. The SA-Q-learning algorithm, a modified version of the popular Q-Learning, is used. Test results on a two node power system with two generator-agents and two consumer agents, lead to some useful conclusions.
Keywords :
learning (artificial intelligence); power engineering computing; power markets; stochastic games; SA-Q-learning algorithm; adaptive agents; agent-based simulation; consumer agent; demand response; demand-side bidding; electricity markets; energy market; generator agent; hourly energy auction; locational marginal pricing; monopoly; reinforcement learning algorithm; stochastic game; two-node power system; Delay; Elasticity; Electricity supply industry; Energy consumption; Learning; Load management; Power generation; Power markets; Power system modeling; System testing; Demand-Side Bidding; Electricity Markets; Reinforcement Learning;
Conference_Titel :
Intelligent System Applications to Power Systems, 2009. ISAP '09. 15th International Conference on
Conference_Location :
Curitiba
Print_ISBN :
978-1-4244-5097-8
DOI :
10.1109/ISAP.2009.5352855
