Relaxation algorithms to find Nash equilibria with economic applications

Jacek B. Krawczyk; Stanislav Uryasev

doi:10.1023/A:1019097208499

Relaxation algorithms to find Nash equilibria with economic applications

Jacek B. Krawczyk
, Stanislav Uryasev

Applied Mathematics and Statistics

Victoria University of Wellington

Research output: Contribution to journal › Article › peer-review

179 Scopus citations

Abstract

Recent theoretical studies have shown that a relaxation algorithm can be used to find noncooperative equilibria of synchronous infinite games with nonlinear payoff functions and coupled constraints. In this study, we introduce an improvement to the algorithm, such as the steepest-descent step-size control, for which the convergence of the algorithm is proved. The algorithm is then tested on several economic applications. In particular, a River Basin Pollution problem is considered where coupled environmental constraints are crucial for the relevant model definition. Numerical runs demonstrate fast convergence of the algorithm for a wide range of parameters.

Original language	English
Pages (from-to)	63-73
Number of pages	11
Journal	Environmental Modeling and Assessment
Volume	5
Issue number	1
DOIs	https://doi.org/10.1023/A:1019097208499
State	Published - 2000

Keywords

Computational economics
Coupled constraints
Nash equilibrium
Relaxation algorithm

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abstract = "Recent theoretical studies have shown that a relaxation algorithm can be used to find noncooperative equilibria of synchronous infinite games with nonlinear payoff functions and coupled constraints. In this study, we introduce an improvement to the algorithm, such as the steepest-descent step-size control, for which the convergence of the algorithm is proved. The algorithm is then tested on several economic applications. In particular, a River Basin Pollution problem is considered where coupled environmental constraints are crucial for the relevant model definition. Numerical runs demonstrate fast convergence of the algorithm for a wide range of parameters.",

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AB - Recent theoretical studies have shown that a relaxation algorithm can be used to find noncooperative equilibria of synchronous infinite games with nonlinear payoff functions and coupled constraints. In this study, we introduce an improvement to the algorithm, such as the steepest-descent step-size control, for which the convergence of the algorithm is proved. The algorithm is then tested on several economic applications. In particular, a River Basin Pollution problem is considered where coupled environmental constraints are crucial for the relevant model definition. Numerical runs demonstrate fast convergence of the algorithm for a wide range of parameters.

KW - Computational economics

KW - Coupled constraints

KW - Nash equilibrium

KW - Relaxation algorithm

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ER -

Relaxation algorithms to find Nash equilibria with economic applications

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Keywords

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