论文信息 - Oblivious equilibrium for stochastic games with concave utility

Oblivious equilibrium for stochastic games with concave utility

We study stochastic games with a large number of players, where players are coupled via their payoff functions. A standard solution concept for stochastic games is Markov perfect equilibrium (MPE). In MPE, each player's strategy is a function of its own state as well as the state of other players. This makes MPE computationally prohibitive as the number of players becomes large. An approximate solution concept called oblivious equilibrium (OE) was introduced by Weintraub et al., where each player's decision depends only on its own state and the ldquolong-run averagerdquo state of other players. This makes OE computationally more tractable than MPE. It was shown that under a set of assumptions, as the number of players becomes large, OE closely approximates MPE. However, these assumptions require the computation of OE and verifying that the resulting stationary distribution satisfies a certain light-tail condition. In this paper, we derive exogenous conditions on the state dynamics and the payoff function under which the light-tail condition holds. A key condition is that the agents' payoffs are concave in their own state and actions. These exogenous conditions enable us to characterize a family of stochastic games in which OE is a good approximation for MPE.

R. Johari | A. Goldsmith | G. Weintraub | S. Adlakha | Ramesh Johari

[1] L. Shapley,et al. Stochastic Games* , 1953, Proceedings of the National Academy of Sciences.

[2] A. Pakes,et al. Computing Markov Perfect Nash Equilibria: Numerical Implications of a Dynamic Differentiated Product Model , 1992 .

[3] Richard L. Tweedie,et al. Markov Chains and Stochastic Stability , 1993, Communications and Control Engineering Series.

[4] A. Pakes,et al. Markov-Perfect Industry Dynamics: A Framework for Empirical Work , 1995 .

[5] Dimitri P. Bertsekas,et al. Dynamic Programming and Optimal Control, Two Volume Set , 1995 .

[6] Roy D. Yates,et al. Stochastic power control for cellular radio systems , 1998, IEEE Trans. Commun..

[7] A. Pakes,et al. Stochastic Algorithms, Symmetric Markov Perfect Equilibrium, and the , 2001 .

[8] D. Sorensen,et al. Approximation of large-scale dynamical systems: an overview , 2004 .

[9] James E. Smith,et al. Structural Properties of Stochastic Dynamic Programs , 2002, Oper. Res..

[10] Peter E. Caines,et al. Uplink power adjustment in wireless communication systems: a stochastic control analysis , 2004, IEEE Transactions on Automatic Control.

[11] P. Caines,et al. Nash Equilibria for Large-Population Linear Stochastic Systems of Weakly Coupled Agents , 2005 .

[12] C. L. Benkard,et al. Markov Perfect Industry Dynamics with Many Firms , 2005 .

[13] P. Lions,et al. Mean field games , 2007 .

[14] Oblivious Equilibrium for General Stochastic Games with Many Players , 2007 .