International audienceA Multi-Agent network flow problem is addressed in this paper where a set of transportation-agents can control the capacities of a set of routes. Each agent incurs a cost proportional to the chosen capacity. A third-party agent, a customer, is interesting in maximizing the product flow transshipped from a source to a sink node through the network. He offers a reward proportional to the flow value, which is shared equally among the transportation-agents. We address the problem of finding a stable strategy (i.e., a Nash Equilibrium) which maximizes the network flow. We show that this problem, already proved to be NP-hard, can be modeled and solved using mixed integer linear programming (MILP)
Communication networks shared by selfish users are considered and modeled as noncooperative repeated...
According to Wardrop's first principle, agents in a congested network choose their routes selfishly,...
We consider a network shared by noncooperative two types of users, group users and individual users,...
International audienceA Multi-Agent network flow problem is addressed in this paper where a set of t...
International audienceMulti-agent network games have become a promising interdisciplinary research a...
International audienceIn this work, a multi-agent network flow problem is addressed where a set of t...
International audienceIn this work, a multi-agent network flow problem is addressed , aiming at char...
In this work, a multiagent network flow problem is addressed, aiming at characterizing the propertie...
International audienceA Multi-Agent Minimum-Cost Flow problem is addressed in this paper. It can be ...
In this work, multi-agent network flow problems are addressed. Three types of agentsare considered, ...
As the need to support high speed data exchange in modern communication networks grows rapidly, effe...
Nous considérons dans ce travail, des problèmes d’optimisation dans des graphes de flot multi-agent....
In the traditional maximum-flow problem, the goal is to transfer maximum flow in a network by direct...
Thesis: S.M., Massachusetts Institute of Technology, Computation for Design and Optimization Program...
We study a network formation game where players wish to send traffic to other players. Players can b...
Communication networks shared by selfish users are considered and modeled as noncooperative repeated...
According to Wardrop's first principle, agents in a congested network choose their routes selfishly,...
We consider a network shared by noncooperative two types of users, group users and individual users,...
International audienceA Multi-Agent network flow problem is addressed in this paper where a set of t...
International audienceMulti-agent network games have become a promising interdisciplinary research a...
International audienceIn this work, a multi-agent network flow problem is addressed where a set of t...
International audienceIn this work, a multi-agent network flow problem is addressed , aiming at char...
In this work, a multiagent network flow problem is addressed, aiming at characterizing the propertie...
International audienceA Multi-Agent Minimum-Cost Flow problem is addressed in this paper. It can be ...
In this work, multi-agent network flow problems are addressed. Three types of agentsare considered, ...
As the need to support high speed data exchange in modern communication networks grows rapidly, effe...
Nous considérons dans ce travail, des problèmes d’optimisation dans des graphes de flot multi-agent....
In the traditional maximum-flow problem, the goal is to transfer maximum flow in a network by direct...
Thesis: S.M., Massachusetts Institute of Technology, Computation for Design and Optimization Program...
We study a network formation game where players wish to send traffic to other players. Players can b...
Communication networks shared by selfish users are considered and modeled as noncooperative repeated...
According to Wardrop's first principle, agents in a congested network choose their routes selfishly,...
We consider a network shared by noncooperative two types of users, group users and individual users,...