On the smooth unfolding of bifurcations in quantal-response equilibria

Adam Harris*, Scott McCallum, Michael S. Harré

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

1 Citation (Scopus)

Abstract

We report on the topological structure of logit quantal response equilibria for asymmetric, two-player, two-choice games in normal form, via catastrophe theory. We present three main outcomes: first, a novel, smooth potential function for the underlying dynamics, relative to which logit equilibria arise as stationary points comprising a parameterised hyper-surface; secondly, a proof that all catastrophes within this manifold are of order at most three, i.e. “folds and cusps”; thirdly, discovery of a new topological phenomenon, the “pleated loop”, corresponding to a pair of opposed pitchfork bifurcations. This we exhibit for games, such as Prisoner's Dilemma, that have a unique Nash equilibrium, with multiple logit equilibria for finite precision parameters. These results extend work at the intersection of stochastic decision theory and catastrophe theory with economic games. Their application to the problem of bifurcations in the tracing procedure for logit solutions, proposed by McKelvey and Palfrey, is discussed throughout.

Original languageEnglish
JournalGames and Economic Behavior
DOIs
Publication statusAccepted/In press - 23 Aug 2023

Keywords

  • Quantal response equilibrium
  • Catastrophe theory
  • Bifurcations
  • Cusps and folds
  • Potential function
  • Normal-form games

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