Risk aversion can promote cooperation

Jay Armas; Wout Merbis; Janusz M Meylahn; Soroush Rafiee Rad; Mauricio J del Razo

doi:10.1088/2632-072X/adb234

Risk aversion can promote cooperation

Jay Armas
, Wout Merbis
, Janusz M Meylahn^*
, Soroush Rafiee Rad
, Mauricio J del Razo

^*Corresponding author for this work

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

1 Citation (Scopus)

43 Downloads (Pure)

Abstract

Cooperative dynamics are central to our understanding of many phenomena in living and complex systems. However, we lack a universal mechanism to explain the emergence of cooperation. We present a novel framework for modelling social dilemma games with an arbitrary number of players by combining reaction networks, methods from quantum mechanics applied to stochastic complex systems, game theory and stochastic simulations of molecular reactions. Using this framework, we propose a novel and robust mechanism for cooperation based on risk aversion that leads to cooperative behaviour in population games. Rather than individuals seeking to maximise payouts in the long run, individuals seek to obtain a minimum set of resources with a given level of confidence and in a limited time span. We show that this mechanism can lead to the emergence of new equilibria in a range of social dilemma games.

Original language	English
Article number	015010
Journal	Journal of Physics: Complexity
Volume	6
Issue number	1
DOIs	https://doi.org/10.1088/2632-072X/adb234
Publication status	Published - 1 Mar 2025

Keywords

UT-Gold-D

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10.1088/2632-072X/adb234Licence: CC BY

Armas_2025_J._Phys._Complex._6_015010Final published version, 1.66 MBLicence: CC BY

Cite this

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title = "Risk aversion can promote cooperation",

abstract = "Cooperative dynamics are central to our understanding of many phenomena in living and complex systems. However, we lack a universal mechanism to explain the emergence of cooperation. We present a novel framework for modelling social dilemma games with an arbitrary number of players by combining reaction networks, methods from quantum mechanics applied to stochastic complex systems, game theory and stochastic simulations of molecular reactions. Using this framework, we propose a novel and robust mechanism for cooperation based on risk aversion that leads to cooperative behaviour in population games. Rather than individuals seeking to maximise payouts in the long run, individuals seek to obtain a minimum set of resources with a given level of confidence and in a limited time span. We show that this mechanism can lead to the emergence of new equilibria in a range of social dilemma games.",

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T1 - Risk aversion can promote cooperation

AU - Armas, Jay

AU - Merbis, Wout

AU - Meylahn, Janusz M

AU - Rad, Soroush Rafiee

AU - Razo, Mauricio J del

PY - 2025/3/1

Y1 - 2025/3/1

N2 - Cooperative dynamics are central to our understanding of many phenomena in living and complex systems. However, we lack a universal mechanism to explain the emergence of cooperation. We present a novel framework for modelling social dilemma games with an arbitrary number of players by combining reaction networks, methods from quantum mechanics applied to stochastic complex systems, game theory and stochastic simulations of molecular reactions. Using this framework, we propose a novel and robust mechanism for cooperation based on risk aversion that leads to cooperative behaviour in population games. Rather than individuals seeking to maximise payouts in the long run, individuals seek to obtain a minimum set of resources with a given level of confidence and in a limited time span. We show that this mechanism can lead to the emergence of new equilibria in a range of social dilemma games.

AB - Cooperative dynamics are central to our understanding of many phenomena in living and complex systems. However, we lack a universal mechanism to explain the emergence of cooperation. We present a novel framework for modelling social dilemma games with an arbitrary number of players by combining reaction networks, methods from quantum mechanics applied to stochastic complex systems, game theory and stochastic simulations of molecular reactions. Using this framework, we propose a novel and robust mechanism for cooperation based on risk aversion that leads to cooperative behaviour in population games. Rather than individuals seeking to maximise payouts in the long run, individuals seek to obtain a minimum set of resources with a given level of confidence and in a limited time span. We show that this mechanism can lead to the emergence of new equilibria in a range of social dilemma games.

KW - UT-Gold-D

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DO - 10.1088/2632-072X/adb234

M3 - Article

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VL - 6

JO - Journal of Physics: Complexity

JF - Journal of Physics: Complexity

IS - 1

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Risk aversion can promote cooperation

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