We explore a game theoretic framework for multiple energy producers competing in energy market. Each producer, referred to as a player, optimizes its own objective function given the demand utility. The equilibrium strategy of each player depends on the production cost, referred to as type, of the other players. We show that as the number of players increases, the mean of the types is sufficient for finding the equilibrium. For finite number of players, we design a mean field distributed learning algorithm that converges to equilibrium. We discuss extensions of our model to include several realistic aspects of the energy market
International audienceIn this article, we investigate the competitive interaction between electrical...
This paper applies mean field game theory to dynamic demand management. For a large population of el...
AbstractA part of a country's electrical grid in which an electricity generator (which may consist o...
We study energy markets in game theoretic framework. The energy markets consist of two types of ener...
27 pages, 5 figuresWe consider a stylized model for a power network with distributed local power gen...
In this article, we investigate the competitive interaction between electrical vehicles or hybrid oi...
This chapter introduces mean field games to capture the mutual interaction between a population and ...
In this article, we investigate the competitive interaction between electrical vehicles or hybrid oi...
The thesis addresses challenges in multi-agent systems in which they consist of multiple autonomous ...
This study addresses the resource management problem in a large scale networked system with high fle...
In this manuscript a novel strategy for distributed and autonomous demand-side energy management amo...
International audienceWe model the smart grid as a decentralized and hierarchical network, made up o...
In the emerging smart grids, production increasingly relies on a greater number of decentralized gen...
This paper explores an idea of demand-supply balance for smart grids in which consumers are expected...
This paper explores an idea of demand-supply balance for smart grids in which consumers are expected...
International audienceIn this article, we investigate the competitive interaction between electrical...
This paper applies mean field game theory to dynamic demand management. For a large population of el...
AbstractA part of a country's electrical grid in which an electricity generator (which may consist o...
We study energy markets in game theoretic framework. The energy markets consist of two types of ener...
27 pages, 5 figuresWe consider a stylized model for a power network with distributed local power gen...
In this article, we investigate the competitive interaction between electrical vehicles or hybrid oi...
This chapter introduces mean field games to capture the mutual interaction between a population and ...
In this article, we investigate the competitive interaction between electrical vehicles or hybrid oi...
The thesis addresses challenges in multi-agent systems in which they consist of multiple autonomous ...
This study addresses the resource management problem in a large scale networked system with high fle...
In this manuscript a novel strategy for distributed and autonomous demand-side energy management amo...
International audienceWe model the smart grid as a decentralized and hierarchical network, made up o...
In the emerging smart grids, production increasingly relies on a greater number of decentralized gen...
This paper explores an idea of demand-supply balance for smart grids in which consumers are expected...
This paper explores an idea of demand-supply balance for smart grids in which consumers are expected...
International audienceIn this article, we investigate the competitive interaction between electrical...
This paper applies mean field game theory to dynamic demand management. For a large population of el...
AbstractA part of a country's electrical grid in which an electricity generator (which may consist o...