Using Correlated Strategies for Computing Stackelberg Equilibria in Extensive-Form Games

Authors

  • Jiri Cermak Czech Technical University in Prague
  • Branislav Bosansky Czech Technical University in Prague
  • Karel Durkota Czech Technical University in Prague
  • Viliam Lisy University of Alberta
  • Christopher Kiekintveld University of Texas at El Paso

DOI:

https://doi.org/10.1609/aaai.v30i1.10045

Keywords:

Strong Stackelberg Equilibrium, Stackelberg Equilibrium, Correlated Equilibrium, Extensive-Form Games, Stackelberg Extensive-Form Correlated Equilibrium, Game Theory

Abstract

Strong Stackelberg Equilibrium (SSE) is a fundamental solution concept in game theory in which one player commits to a strategy, while the other player observes this commitment and plays a best response. We present a new algorithm for computing SSE for two-player extensive-form general-sum games with imperfect information (EFGs) where computing SSE is an NP-hard problem. Our algorithm is based on a correlated version of SSE, known as Stackelberg Extensive-Form Correlated Equilibrium (SEFCE). Our contribution is therefore twofold: (1) we give the first linear program for computing SEFCE in EFGs without chance, (2) we repeatedly solve and modify this linear program in a systematic search until we arrive to SSE. Our new algorithm outperforms the best previous algorithms by several orders of magnitude.

AAAI 2016 Proceedings Cover

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Published

2016-02-21

How to Cite

Cermak, J., Bosansky, B., Durkota, K., Lisy, V., & Kiekintveld, C. (2016). Using Correlated Strategies for Computing Stackelberg Equilibria in Extensive-Form Games. Proceedings of the AAAI Conference on Artificial Intelligence, 30(1). https://doi.org/10.1609/aaai.v30i1.10045

Issue

Vol. 30 No. 1 (2016): Thirtieth AAAI Conference on Artificial Intelligence

Section

Technical Papers: Game Theory and Economic Paradigms