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The ZERO Regrets Algorithm: Optimizing over Pure Nash Equilibria via Integer Programming

Optimization and Control 2022-09-16 v4 Computer Science and Game Theory
Authors: Gabriele Dragotto , Rosario Scatamacchia
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Abstract

Designing efficient algorithms to compute Nash equilibria poses considerable challenges in Algorithmic Game Theory and Optimization. In this work, we employ integer programming techniques to compute Nash equilibria in Integer Programming Games, a class of simultaneous and non-cooperative games where each player solves a parametrized integer program. We introduce ZERO Regrets, a general and efficient cutting plane algorithm to compute, enumerate, and select Nash equilibria. Our framework leverages the concept of equilibrium inequality, an inequality valid for any Nash equilibrium, and the associated equilibrium separation oracle. We evaluate our algorithmic framework on a wide range of practical and methodological problems from the literature, providing a solid benchmark against the existing approaches.

Keywords

game theory optimization linear programming

Cite

@article{arxiv.2111.06382,
  title  = {The ZERO Regrets Algorithm: Optimizing over Pure Nash Equilibria via Integer Programming},
  author = {Gabriele Dragotto and Rosario Scatamacchia},
  journal= {arXiv preprint arXiv:2111.06382},
  year   = {2022}
}

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