Artikel

Linear-quadratic mean-field-type games: A direct method

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In this work, a multi-person mean-field-type game is formulated and solved that is described by a linear jump-diffusion system of mean-field type and a quadratic cost functional involving the second moments, the square of the expected value of the state, and the control actions of all decision-makers. We propose a direct method to solve the game, team, and bargaining problems. This solution approach does not require solving the Bellman-Kolmogorov equations or backward-forward stochastic differential equations of Pontryagin's type. The proposed method can be easily implemented by beginners and engineers who are new to the emerging field of mean-field-type game theory. The optimal strategies for decision-makers are shown to be in a state-and-mean-field feedback form. The optimal strategies are given explicitly as a sum of the well-known linear state-feedback strategy for the associated deterministic linear-quadratic game problem and a mean-field feedback term. The equilibrium cost of the decision-makers are explicitly derived using a simple direct method. Moreover, the equilibrium cost is a weighted sum of the initial variance and an integral of a weighted variance of the diffusion and the jump process. Finally, the method is used to compute global optimum strategies as well as saddle point strategies and Nash bargaining solution in state-and-mean-field feedback form.

Language
Englisch

Bibliographic citation
Journal: Games ; ISSN: 2073-4336 ; Volume: 9 ; Year: 2018 ; Issue: 1 ; Pages: 1-18 ; Basel: MDPI

Classification
Wirtschaft
Subject
Nash bargaining solution
mean-field equilibrium
variance
direct method

Event
Geistige Schöpfung
(who)
Duncan, Tyrone E.
Tembine, Hamidou
Event
Veröffentlichung
(who)
MDPI
(where)
Basel
(when)
2018

DOI
doi:10.3390/g9010007
Handle
Last update
10.03.2025, 11:46 AM CET

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Object type

  • Artikel

Associated

  • Duncan, Tyrone E.
  • Tembine, Hamidou
  • MDPI

Time of origin

  • 2018

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