We consider a mean field game among a large population of noncooperative agents divided into two categories: leaders and followers. Each agent is subject to heterogeneous convex constraints and minimizes a quadratic cost function; the cost of each leader is affected by the leaders' aggregate strategy, while the cost of each follower is affected by both the leaders' and followers' aggregate strategy. We propose a decentralized scheme in which the agents update their strategies optimally with respect to a global incentive signal, possibly different for leaders and followers, broadcast by a central coordinator. We propose several incentive update rules that, under different conditions on the problem data, are guaranteed to steer the population...
Abstract—We study a class of linear-quadratic-Gaussian (LQG) control problems with decision makers, ...
We consider the problem to control a large population of noncooperative heterogeneous agents, each w...
Abstract—We study large population leader-follower stochastic multi-agent systems where the agents h...
We consider a mean field game among a large population of noncooperative agents divided into two cat...
We consider mean field games in a large population of heterogeneous agents subject to convex constra...
This paper considers decentralized control and optimization methodologies for large populations of s...
This paper considers decentralized control and optimization methodologies for large populations of s...
This paper considers decentralized control and optimization methodologies for large populations of s...
This paper considers the linear quadratic deterministic mean field control problem for large populat...
This paper investigates a linear quadratic mean field leader-follower team problem, where the model ...
We consider linear-quadratic mean field Stackelberg differential games with the adapted open-loop in...
In the reverse Stackelberg mechanism, by considering a decision function for the leader rather than ...
This paper provides a decentralized approach for the control of a population of N agents to minimize...
Abstract—We study a class of linear-quadratic-Gaussian (LQG) control problems with decision makers, ...
We consider the problem to control a large population of noncooperative heterogeneous agents, each w...
Abstract—We study large population leader-follower stochastic multi-agent systems where the agents h...
We consider a mean field game among a large population of noncooperative agents divided into two cat...
We consider mean field games in a large population of heterogeneous agents subject to convex constra...
This paper considers decentralized control and optimization methodologies for large populations of s...
This paper considers decentralized control and optimization methodologies for large populations of s...
This paper considers decentralized control and optimization methodologies for large populations of s...
This paper considers the linear quadratic deterministic mean field control problem for large populat...
This paper investigates a linear quadratic mean field leader-follower team problem, where the model ...
We consider linear-quadratic mean field Stackelberg differential games with the adapted open-loop in...
In the reverse Stackelberg mechanism, by considering a decision function for the leader rather than ...
This paper provides a decentralized approach for the control of a population of N agents to minimize...
Abstract—We study a class of linear-quadratic-Gaussian (LQG) control problems with decision makers, ...
We consider the problem to control a large population of noncooperative heterogeneous agents, each w...
Abstract—We study large population leader-follower stochastic multi-agent systems where the agents h...