Convergence and Stability of Coupled Belief-Strategy Learning Dynamics in Continuous Games

IF 1.4 3区数学 Q2 MATHEMATICS, APPLIED

Mathematics of Operations Research Pub Date : 2024-03-12 DOI:10.1287/moor.2022.0161

Manxi Wu, Saurabh Amin, Asuman Ozdaglar

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引用次数: 0

Abstract

We propose a learning dynamics to model how strategic agents repeatedly play a continuous game while relying on an information platform to learn an unknown payoff-relevant parameter. In each time step, the platform updates a belief estimate of the parameter based on players’ strategies and realized payoffs using Bayes’ rule. Then, players adopt a generic learning rule to adjust their strategies based on the updated belief. We present results on the convergence of beliefs and strategies and the properties of convergent fixed points of the dynamics. We obtain sufficient and necessary conditions for the existence of globally stable fixed points. We also provide sufficient conditions for the local stability of fixed points. These results provide an approach to analyzing the long-term outcomes that arise from the interplay between Bayesian belief learning and strategy learning in games and enable us to characterize conditions under which learning leads to a complete information equilibrium.Funding: Financial support from the Air Force Office of Scientific Research [Project Building Attack Resilience into Complex Networks], the Simons Institute [research fellowship], and a Michael Hammer Fellowship is gratefully acknowledged.

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连续博弈中信念-策略耦合学习动态的收敛性与稳定性

我们提出了一种学习动态模型，用以模拟策略参与者如何在依靠信息平台学习未知的与报酬相关参数的同时，反复进行连续博弈。在每个时间步骤中，平台都会根据博弈者的策略和实现的回报，利用贝叶斯规则更新参数的信念估计值。然后，玩家采用通用学习规则，根据更新后的信念调整策略。我们介绍了信念和策略的收敛结果以及动态收敛定点的特性。我们获得了全局稳定定点存在的充分和必要条件。我们还提供了定点局部稳定的充分条件。这些结果为分析贝叶斯信念学习和策略学习在博弈中的相互作用所产生的长期结果提供了一种方法，并使我们能够描述学习导致完全信息均衡的条件：感谢空军科学研究办公室[在复杂网络中建立攻击复原力项目]、西蒙斯研究所[研究奖学金]和迈克尔-哈默奖学金的资助。

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

Mathematics of Operations Research 管理科学-应用数学

CiteScore

3.40

自引率

5.90%

发文量

178

审稿时长

15.0 months

期刊介绍： Mathematics of Operations Research is an international journal of the Institute for Operations Research and the Management Sciences (INFORMS). The journal invites articles concerned with the mathematical and computational foundations in the areas of continuous, discrete, and stochastic optimization; mathematical programming; dynamic programming; stochastic processes; stochastic models; simulation methodology; control and adaptation; networks; game theory; and decision theory. Also sought are contributions to learning theory and machine learning that have special relevance to decision making, operations research, and management science. The emphasis is on originality, quality, and importance; correctness alone is not sufficient. Significant developments in operations research and management science not having substantial mathematical interest should be directed to other journals such as Management Science or Operations Research.