Adjustment of link weights based on tolerance promotes cooperation in spatial prisoner's dilemma game

IF 2 4区 生物学 Q2 BIOLOGY
Shounan Lu , Yang Wang
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引用次数: 0

Abstract

Understanding and explaining cooperative behavior in human society has become an open question. In this paper, we propose a dynamic adjustment of pair relationships in a spatial prisoner's dilemma game. Unlike previous studies that individuals dynamically adjust the intensity of interaction with their opponents at each step, this work consider tolerance, in which the intensity of interaction is adjusted when the time of successive defections by an individual exceeds a tolerance threshold T. We find that although the proposed mechanism can significantly improve cooperation compared to traditional versions, a higher tolerance for continuous defection behavior is not conducive to the evolution of cooperation. Furthermore, an environmental adaptor that dynamically adjusts the paired relationship with the opponent at all times is beneficial for the evolution of cooperation. And the higher the degree of adjustment in the paired relationship, the lower the probability of continuous exploitation by defector. We hope that our work can provide some insights into explaining the existence and maintenance of cooperation.
根据容忍度调整链接权重,促进空间囚徒困境博弈中的合作。
理解和解释人类社会中的合作行为已成为一个悬而未决的问题。在本文中,我们提出了一种在空间囚徒困境博弈中动态调整配对关系的方法。与以往研究中个体在每一步都动态调整与对手互动强度不同,这项工作考虑了容忍度,即当个体连续叛逃的时间超过容忍阈值 T 时,互动强度就会被调整。我们发现,虽然与传统版本相比,所提出的机制能显著提高合作性,但对连续叛逃行为的更高容忍度并不利于合作的演化。此外,随时动态调整与对手配对关系的环境适应器也有利于合作的进化。而且,配对关系的调整程度越高,叛逃者持续利用的概率就越低。我们希望我们的研究能为解释合作的存在和维持提供一些启示。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Biosystems
Biosystems 生物-生物学
CiteScore
3.70
自引率
18.80%
发文量
129
审稿时长
34 days
期刊介绍: BioSystems encourages experimental, computational, and theoretical articles that link biology, evolutionary thinking, and the information processing sciences. The link areas form a circle that encompasses the fundamental nature of biological information processing, computational modeling of complex biological systems, evolutionary models of computation, the application of biological principles to the design of novel computing systems, and the use of biomolecular materials to synthesize artificial systems that capture essential principles of natural biological information processing.
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