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Discrete–Time Stochastic Control and Dynamic Potential Games: The Euler–Equation Approach (Springerbriefs in Mathematics)
David González-Sánchez; Onésimo Hernández-Lerma (Author)
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Springer
· Paperback
Discrete–Time Stochastic Control and Dynamic Potential Games: The Euler–Equation Approach (Springerbriefs in Mathematics) - David González-Sánchez; Onésimo Hernández-Lerma
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Synopsis "Discrete–Time Stochastic Control and Dynamic Potential Games: The Euler–Equation Approach (Springerbriefs in Mathematics)"
There are several techniques to study noncooperative dynamic games, such as dynamic programming and the maximum principle (also called the Lagrange method). It turns out, however, that one way to characterize dynamic potential games requires to analyze inverse optimal control problems, and it is here where the Euler equation approach comes in because it is particularly well–suited to solve inverse problems. Despite the importance of dynamic potential games, there is no systematic study about them. This monograph is the first attempt to provide a systematic, self–contained presentation of stochastic dynamic potential games.
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The book is written in English.
The binding of this edition is Paperback.
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