This paper introduces a consensus-based generalized multi-population aggregative game coordination approach with application to electric vehicles charging under transmission line constraints. The algorithm enables agents to seek an equilibrium solution while considering the limited infrastructure capacities that impose coupling constraints among the users. The Nash-seeking algorithm consists of two interrelated iterations. In the upper layer, population coordinators collaborate for a distributed estimation of the coupling aggregate term in the agents' cost function and the associated Lagrange multiplier of the coupling constraint, transmitting the latest updated values to their population's agents. In the lower layer, each agent updates its...
We consider the framework of aggregative games, in which the cost function of each agent depends on ...
Electric vehicles are growing at a significant rate in the world and that makes it essential for mod...
In the context of smart grid and in the transition to decentralized electric systems, we address t...
We design the first fully-distributed algorithm for generalized Nash equilibrium seeking in aggregat...
In this paper, we explore aggregative games over networks of multi-integrator agents with coupled co...
We analyse deterministic aggregative games, with large but finite number of players, that are subjec...
We study the existence and uniqueness of Nash equilibria for a certain class of aggregative games wi...
We consider the problem of optimal charging of heterogeneous plug-in electric vehicles (PEVs). We ap...
This paper aims to design a distributed coordination algorithm for solving a multi-agent decision pr...
Several works have recently suggested to model the problem of coordinating the charging needs of a f...
© 2020 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
We consider the framework of aggregative games, in which the cost function of each agent depends on ...
This paper presents the equilibrium analysis of a game composed of heterogeneous electric vehicles (...
This paper presents a game theoretic decentralized electric vehicle charging schedule for minimizing...
Several works have recently suggested to model the problem of coordinating the charging needs of a f...
We consider the framework of aggregative games, in which the cost function of each agent depends on ...
Electric vehicles are growing at a significant rate in the world and that makes it essential for mod...
In the context of smart grid and in the transition to decentralized electric systems, we address t...
We design the first fully-distributed algorithm for generalized Nash equilibrium seeking in aggregat...
In this paper, we explore aggregative games over networks of multi-integrator agents with coupled co...
We analyse deterministic aggregative games, with large but finite number of players, that are subjec...
We study the existence and uniqueness of Nash equilibria for a certain class of aggregative games wi...
We consider the problem of optimal charging of heterogeneous plug-in electric vehicles (PEVs). We ap...
This paper aims to design a distributed coordination algorithm for solving a multi-agent decision pr...
Several works have recently suggested to model the problem of coordinating the charging needs of a f...
© 2020 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
We consider the framework of aggregative games, in which the cost function of each agent depends on ...
This paper presents the equilibrium analysis of a game composed of heterogeneous electric vehicles (...
This paper presents a game theoretic decentralized electric vehicle charging schedule for minimizing...
Several works have recently suggested to model the problem of coordinating the charging needs of a f...
We consider the framework of aggregative games, in which the cost function of each agent depends on ...
Electric vehicles are growing at a significant rate in the world and that makes it essential for mod...
In the context of smart grid and in the transition to decentralized electric systems, we address t...