Multiobjective Stochastic Control in Fluid Dynamics via Game Theory Approach: Application to the Periodic Burgers Equation

A. M. Croicu; M. Y. Hussaini

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Multiobjective Stochastic Control in Fluid Dynamics via Game Theory Approach: Application to the Periodic Burgers Equation

机译：基于博弈论的流体动力学多目标随机控制：在周期Burgers方程中的应用

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The purpose of the present work is to implement well-known statistical decision and game theory strategies into multiobjective stochastic control problems of fluid dynamics. Such goal is first justified by the fact that deterministic (either singleobjective or multiobjective) control problems that are obtained without taking into account the uncertainty of the model are usually unreliable. Second, in most real-world problems, several goals must be satisfied simultaneously to obtain an optimal solution and, as a consequence, a multiobjective control approach is more appropriate. Therefore, we develop a multiobjective stochastic control algorithm for general fluid dynamics applications, based on the Bayes decision, adjoint formulation and the Nash equilibrium strategies. The algorithm is exemplified by the multiobjective stochastic control of a periodic Burgers equation.

机译：本工作的目的是将众所周知的统计决策和博弈论策略应用于流体动力学的多目标随机控制问题。首先通过以下事实证明该目标是合理的，即在不考虑模型不确定性的情况下获得的确定性（单目标或多目标）控制问题通常是不可靠的。其次，在大多数实际问题中，必须同时满足几个目标才能获得最佳解决方案，因此，多目标控制方法更为合适。因此，我们基于贝叶斯决策，伴随公式和纳什均衡策略，开发了一种适用于一般流体动力学的多目标随机控制算法。该算法以周期Burgers方程的多目标随机控制为例。

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《Journal of Optimization Theory and Applications 》 |2008年第3期| p.501-514| 共14页
作者
A. M. Croicu; M. Y. Hussaini;
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正文语种 eng
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Stochastic Nash equilibrium; Optimal control; Expected value; Adjoint system; Burgers equation;

机译：随机Nash均衡;最优控制;期望值;伴随系统;汉堡方程;

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Multiobjective Stochastic Control in Fluid Dynamics via Game Theory Approach: Application to the Periodic Burgers Equation

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