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A Case Study on Stochastic Games on Large Graphs in Mean Field and Sparse Regimes

Author

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  • Daniel Lacker

    (Department of Industrial Engineering and Operations Research, Columbia University, New York, New York 10027)

  • Agathe Soret

    (Department of Industrial Engineering and Operations Research, Columbia University, New York, New York 10027)

Abstract

We study a class of linear-quadratic stochastic differential games in which each player interacts directly only with its nearest neighbors in a given graph. We find a semiexplicit Markovian equilibrium for any transitive graph, in terms of the empirical eigenvalue distribution of the graph’s normalized Laplacian matrix. This facilitates large-population asymptotics for various graph sequences, with several sparse and dense examples discussed in detail. In particular, the mean field game is the correct limit only in the dense graph case, that is, when the degrees diverge in a suitable sense. Although equilibrium strategies are nonlocal, depending on the behavior of all players, we use a correlation decay estimate to prove a propagation of chaos result in both the dense and sparse regimes, with the sparse case owing to the large distances between typical vertices. Without assuming the graphs are transitive, we show also that the mean field game solution can be used to construct decentralized approximate equilibria on any sufficiently dense graph sequence.

Suggested Citation

  • Daniel Lacker & Agathe Soret, 2022. "A Case Study on Stochastic Games on Large Graphs in Mean Field and Sparse Regimes," Mathematics of Operations Research, INFORMS, vol. 47(2), pages 1530-1565, May.
    • Handle: RePEc:inm:ormoor:v:47:y:2022:i:2:p:1530-1565
    DOI: 10.1287/moor.2021.1179
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