Finite uniform approximation of two-person games defined on a product of staircase-function infinite spaces

•Two-person game with strategies as functions is approximated to a bimatrix game.•A game solution is subinterval-wise stacked of equilibria in “smaller” bimatrix games.•Approximate solution is acceptable if it changes minimally by minimal sample change. A method of finite uniform approximation of tw...

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Bibliographic Details
Published in:International journal of approximate reasoning Vol. 145; pp. 139 - 162
Main Author: Romanuke, Vadim V.
Format: Journal Article
Language:English
Published: Elsevier Inc 01.06.2022
Subjects:
Approximate equilibrium consistency
Bimatrix game
Game theory
Payoff functional
Staircase-function strategy
Payoff functional
Staircase-function strategy
Game theory
Bimatrix game
Approximate equilibrium consistency
ISSN:0888-613X, 1873-4731
Online Access:Get full text
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Summary:•Two-person game with strategies as functions is approximated to a bimatrix game.•A game solution is subinterval-wise stacked of equilibria in “smaller” bimatrix games.•Approximate solution is acceptable if it changes minimally by minimal sample change. A method of finite uniform approximation of two-person games in staircase-function infinite spaces is presented. A pure strategy of the player is a staircase function defined on a time interval. The method consists in uniformly sampling the player's pure strategy value set and finding equilibria in “smaller” bimatrix games, each defined on a subinterval where the pure strategy value is constant. Then the equilibria are successively stacked so that the stack is an approximate solution to the initial staircase game. The (weak) consistency, equivalent to the approximate solution acceptability, is studied by how much the players' payoff and equilibrium strategy change as the sampling density minimally increases. The consistency is decomposed into the payoff, equilibrium strategy support cardinality, equilibrium strategy sampling density, and support probability consistency. The most important parts are the payoff consistency and equilibrium strategy support cardinality (weak) consistency. However, it is practically reasonable to consider a relaxed payoff consistency, by which the player's payoff change in an appropriate approximation may grow at most by ε as the sampling density minimally increases. The weak consistency itself is a relaxation to the consistency, where the minimal decrement of the sampling density is ignored. An example is presented to show how the approximation is fulfilled for a case of when “smaller” bimatrix games have multiple equilibria.
ISSN:0888-613X
1873-4731
DOI:10.1016/j.ijar.2022.03.005