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Stackelberg Mean-Field-Type Games with Polynomial Cost

Zahrate El Oula Frihi, Julian Barreiro‐Gomez, Salah Eddine Choutri, Boualem Djehiche, Hamidou Tembiné

2020IFAC-PapersOnLine7 citationsDOIOpen Access PDF

Abstract

This article presents a class of Stackelberg mean-field-type games with multiple leaders and multiple followers. The decision-makers act in sequential order with informational differences. The state dynamics is driven by jump-diffusion processes and the cost function is non-quadratic and has a polynomial structure. The structures of Stackelberg strategies and costs of the leaders and followers are given in a semi-explicit way in state-and- mean-field-type feedback form. A sufficiency condition is provided using an infinite dimensional partial integro-differential system. The methodology is extended to multi-level hierarchical systems. It is shown that not only the set of decision-makers per level matters but also the number of hierarchical levels plays a key role in the global performance of the system. We also identify specific range of parameters for which the Nash equilibrium coincides with the hierarchical solution independently of the number of layers and the order of play.

Topics & Concepts

Stackelberg competitionMathematical optimizationType (biology)PolynomialState (computer science)Nash equilibriumSet (abstract data type)Order (exchange)Mathematical economicsFunction (biology)Jump diffusionField (mathematics)MathematicsComputer scienceApplied mathematicsJumpEconomicsPure mathematicsAlgorithmMathematical analysisEvolutionary biologyQuantum mechanicsEcologyProgramming languageBiologyFinancePhysicsMathematical Biology Tumor GrowthStochastic processes and financial applicationsMathematical and Theoretical Epidemiology and Ecology Models
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