English

A General Framework for Computing Optimal Correlated Equilibria in Compact Games

Computer Science and Game Theory 2011-09-29 v1

Abstract

We analyze the problem of computing a correlated equilibrium that optimizes some objective (e.g., social welfare). Papadimitriou and Roughgarden [2008] gave a sufficient condition for the tractability of this problem; however, this condition only applies to a subset of existing representations. We propose a different algorithmic approach for the optimal CE problem that applies to all compact representations, and give a sufficient condition that generalizes that of Papadimitriou and Roughgarden. In particular, we reduce the optimal CE problem to the deviation-adjusted social welfare problem, a combinatorial optimization problem closely related to the optimal social welfare problem. This framework allows us to identify new classes of games for which the optimal CE problem is tractable; we show that graphical polymatrix games on tree graphs are one example. We also study the problem of computing the optimal coarse correlated equilibrium, a solution concept closely related to CE. Using a similar approach we derive a sufficient condition for this problem, and use it to prove that the problem is tractable for singleton congestion games.

Keywords

Cite

@article{arxiv.1109.6064,
  title  = {A General Framework for Computing Optimal Correlated Equilibria in Compact Games},
  author = {Albert Xin Jiang and Kevin Leyton-Brown},
  journal= {arXiv preprint arXiv:1109.6064},
  year   = {2011}
}

Comments

14 pages. Short version to appear in WINE 2011

R2 v1 2026-06-21T19:11:24.629Z