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Creators/Authors contains: "Wang, Peiqi"

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  1. ; ; ; ; ; ; ; ; ; ; et al (, Nature Nanotechnology)
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  2. ; (, Mathematics of Operations Research)
    null (Ed.)
    We develop a probabilistic approach to continuous-time finite state mean field games. Based on an alternative description of continuous-time Markov chains by means of semimartingales and the weak formulation of stochastic optimal control, our approach not only allows us to tackle the mean field of states and the mean field of control at the same time, but also extends the strategy set of players from Markov strategies to closed-loop strategies. We show the existence and uniqueness of Nash equilibrium for the mean field game as well as how the equilibrium of a mean field game consists of an approximative Nash equilibrium for the game with a finite number of players under different assumptions of structure and regularity on the cost functions and transition rate between states. 
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  3. ; ; ; ; ; ; ; ; ; ; et al (, Nature Electronics)
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  4. ; ; ; ; ; ; ; ; ; ; et al (, Nature)
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  5. ; (, ArXivorg)
    We use the recently developed probabilistic analysis of mean field games with finitely many states in the weak formulation, to set-up a principal / agent contract theory model where the principal faces a large population of agents interacting in a mean field manner. We reduce the problem to the optimal control of dynamics of the McKean-Vlasov type, and we solve this problem explicitly in a special case reminiscent of the linear - quadratic mean field game models. The paper concludes with a numerical example demonstrating the power of the results when applied to a simple example of epidemic containment. 
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    Accepted Manuscript Full Text Available
  6. ; (, ArXivorg)
    We develop a probabilistic approach to continuous-time finite state mean field games. Based on an alternative description of continuous-time Markov chain by means of semimartingale and the weak formulation of stochastic optimal control, our approach not only allows us to tackle the mean field of states and the mean field of control in the same time, but also extend the strategy set of players from Markov strategies to closed-loop strategies. We show the existence and uniqueness of Nash equilibrium for the mean field game, as well as how the equilibrium of mean field game consists of an approximative Nash equilibrium for the game with finite number of players under different assumptions of structure and regularity on the cost functions and transition rate between states. 
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    Accepted Manuscript Full Text Available
  7. ; ; ; ; ; ; ; (, Twenty-Fourth International Conference on Architectural Support for Programming Languages and Operating Systems)
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  8. ; (, Applied Mathematics & Optimization)
    null (Ed.)
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