Paper Info
Title
Mean Field Stackelberg Games: Aggregation of Delayed Instructions.
Abstract
In this paper, we consider an N-player interacting strategic game in the presence of a (endogenous) dominating player, who gives direct influence on individual agents, through its impact on their control in the sense of Stackelberg game, and then on the whole community. Each individual agent is subject to a delay effect on collecting information, specifically at a delay time, from the dominating player. The size of his delay is completely known by the agent, while to others, including the dominating player, his delay plays as a hidden random variable coming from a common fixed distribution. By invoking a noncanonical fixed point property, we show that for a general class of finite N-player games, each of them converges to the mean field counterpart which may possess an optimal solution that can serve as an epsilon-Nash equilibrium for the corresponding finite N-player game. Second, we provide, with explicit solutions, a comprehensive study on the corresponding linear quadratic mean field games of small agents with delay from a dominating player. Given the information flow obtained from both the dominating player and the whole community via the mean field term, the filtration to which the control of the representative agent adapted is non-Brownian. Therefore, we propose to utilize backward stochastic dynamics (instead of the common approach through backward stochastic differential equations) for the construction of adjoint process for the resolution of his optimal control. A simple sufficient condition for the unique existence of mean field equilibrium is provided by tackling a class of nonsymmetric Riccati equations. Finally, via a study of a class of forward-backward stochastic functional differential equations, the optimal control of the dominating player is granted given the unique existence of the mentioned mean field equilibrium for small players.
Year
DOI
Venue
2015
10.1137/140993399
SIAM JOURNAL ON CONTROL AND OPTIMIZATION
Keywords
Field
DocType
mean field games,Stackelberg games,dominating player,delay information from dominating player,backward stochastic dynamics,nonsymmetric Riccati equations,forward-backward stochastic functional differential equations
Mathematical optimization,Random variable,Mathematical economics,Fixed-point property,Linear quadratic,Mean field theory,Riccati equation,Stackelberg competition,Bayesian game,Mathematics
Journal
Volume
Issue
ISSN
53
4
0363-0129
Citations 
PageRank 
References 
5
0.55
3
Authors
3
Name
Order
Citations
PageRank
Alain Bensoussan1367170.17
Michael Chau2147197.79
Sheung Chi Phillip Yam3335.94