Computing the Nash Bargaining Solution for Multiple Players in Discrete-Time Markov Chains Games

Kristal K. Trejo; Julio B. Clempner; Alexander S. Poznyak

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Computing the Nash Bargaining Solution for Multiple Players in Discrete-Time Markov Chains Games

机译：在离散时间马尔可夫连锁店游戏中计算多个玩家的NASH讨价还价解决方案

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This paper presents a novel method for computing the Nash bargaining equilibrium for finite, ergodic and controllable Markov chains games. To solve the bargaining process we first set the disagreement point as the Nash equilibrium of the problem, then to find the new agreement point we follow the bargaining model presented by Nash. We exemplify the game formulation in terms of nonlinear programing equations implementing the Lagrange principle. For ensuring the convergence of the game to an equilibrium point we employ the Tikhonov's regularization method. For solving the bargaining problem we make use of the extraproximal optimization approach. Finally, we validate the proposed method by a numerical example for a three-person bargaining situation.

机译：本文提出了一种用于计算有限，友好和可控马尔可夫链团游戏的NASH讨价还价均衡的新方法。要解决讨价还价的过程，我们首先将分歧点设置为问题的纳什均衡，然后找到新的协议点我们遵循纳什呈现的讨价还价模型。我们在实现Lagrange原理的非线性编程方程方面举例说明了游戏制定。为了确保游戏的收敛到平衡点，我们采用了Tikhonov的正则化方法。为了解决讨价还价问题，我们利用外联的优化方法。最后，我们通过数字示例验证了三人谈判情况的数字示例。

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《Cybernetics and Systems》 |2020年第4期|1-26|共26页
作者
Kristal K. Trejo; Julio B. Clempner; Alexander S. Poznyak;
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作者单位

Department of Automatic Control Center for Research and Advanced Studies Mexico City Mexico;

Escuela Superior de Fisica y Metematicas Instituto Politecnico Nacional School of Physics and Mathematics National Polytechnic Institute Mexico City Mexico;

Department of Automatic Control Center for Research and Advanced Studies Mexico City Mexico;

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正文语种 eng
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Markov chains; manipulation; Nash equilibrium; negotiated transfer pricing; non-cooperative game theory;

机译：马尔可夫链;操纵;纳什均衡;谈判转移定价;非合作博弈论;

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专利

1. Computing the Bargaining Approach for Equalizing the Ratios of Maximal Gains in Continuous-Time Markov Chains Games [J] . Trejo Kristal K., Clempner Julio B., Poznyak Exander S. Computational economics . 2019,第3期

机译：计算连续时间马尔可夫连锁机中均衡最大收益比的讨价还价方法
2. Computing the strong L_p- Nash equilibrium for Markov chains games: Convergence and uniqueness [J] . Kristal K. Trejo, Julio B. Clempner, Alexander S. Poznyak Applied Mathematical Modelling . 2017,第Jana期

机译：计算马尔可夫链博弈的强大L_p- Nash均衡：收敛性和唯一性
3. COMPUTING THE STACKELBERG/NASH EQUILIBRIA USING THE EXTRAPROXIMAL METHOD: CONVERGENCE ANALYSIS AND IMPLEMENTATION DETAILS FOR MARKOV CHAINS GAMES [J] . Trejo Kristal K., Clempner Julio B., Poznyak Alexander S. International Journal of Applied Mathematics and Computer Science . 2015,第2期

机译：使用近端方法计算STACKELBERG / NASH平衡：马尔可夫链游戏的收敛性分析和实现细节
4. Nash Bargaining Equilibria for Controllable Markov Chains Games [C] . Kristal K. Trejo, Julio B. Clempner, Alexander S. Poznyak IFAC World Congress . 2018

机译：NASH讨价还价的可控马尔可夫链团游戏
5. INTERNATIONAL COLLABORATION IN ASEAN: A STUDY OF BARGAINING GAME MODELS WITH 'BAYESIAN' PLAYERS (SOUTHEAST ASIA). [D] . JACKSON, THOMAS LINDSAY. 1987

机译：东盟的国际合作：与“贝叶斯”玩家的讨价还价游戏模型的研究（东南亚）。
6. On the Fair Division of Multiple Stochastic Pies to Multiple Agents within the Nash Bargaining Solution [O] . Athanasios C. Karmperis, Konstantinos Aravossis, Ilias P. Tatsiopoulos, -1

机译：在纳什讨价还价解中的多个随机馅饼到多个代理的公平分配
7. Computing the Stackelberg/Nash equilibria using the extraproximal method: Convergence analysis and implementation details for Markov chains games [O] . Trejo Kristal K., Clempner Julio B., Poznyak Alexander S. 2015

机译：使用extraproximal方法计算stackelberg / Nash均衡：markov链游戏的收敛性分析和实现细节

Computing the Nash Bargaining Solution for Multiple Players in Discrete-Time Markov Chains Games

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