The master equation and the convergence problem in mean field games / Pierre Cardaliaguet, Fran�cois Delarue, Jean-Michel Lasry, Pierre-Louis Lions.
By: Cardaliaguet, Pierre [author.].
Contributor(s): Delarue, Fran�cois [author.] | Lasry, J. M [author.] | Lions, P. L. (Pierre-Louis) [author.].
Material type: BookSeries: Annals of mathematics studies: no. 201.Publisher: Princeton, New Jersey : Princeton University Press, 2019Copyright date: �2019Description: 1 online resource.Content type: text Media type: computer Carrier type: online resourceISBN: 9780691193717; 0691193711.Subject(s): Game theory | Differential equations | Mean field theory | Th�eorie des jeux | �Equations diff�erentielles | Th�eorie de champ moyen | MATHEMATICS -- Applied | MATHEMATICS -- Probability & Statistics -- General | MATHEMATICS -- Game Theory | Differential equations | Game theory | Mean field theoryGenre/Form: Electronic books.Additional physical formats: Print version:: Master Equation and the Convergence Problem in Mean Field Games : (ams-201).DDC classification: 519.3 Online resources: Click here to access onlineIncludes bibliographical references and index.
Online resource; title from PDF title page (EBSCO, viewed June 21, 2019).
Frontmatter -- Contents -- Preface -- 1. Introduction -- 2. Presentation of the Main Results -- 3. A Starter: The First-Order Master Equation -- 4. Mean Field Game System with a Common Noise -- 5. The Second-Order Master Equation -- 6. Convergence of the Nash System -- A. Appendix -- References -- Index
This book describes the latest advances in the theory of mean field games, which are optimal control problems with a continuum of players, each of them interacting with the whole statistical distribution of a population. While originating in economics, this theory now has applications in areas as diverse as mathematical finance, crowd phenomena, epidemiology, and cybersecurity. Because mean field games concern the interactions of infinitely many players in an optimal control framework, one expects them to appear as the limit for Nash equilibria of differential games with finitely many players, as the number of players tends to infinity. This book rigorously establishes this convergence, which has been an open problem until now. The limit of the system associated with differential games with finitely many players is described by the so-called master equation, a nonlocal transport equation in the space of measures. After defining a suitable notion of differentiability in the space of measures, the authors provide a complete self-contained analysis of the master equation. Their analysis includes the case of common noise problems in which all the players are affected by a common Brownian motion. They then go on to explain how to use the master equation to prove the mean field limit. This groundbreaking book presents two important new results in mean field games that contribute to a unified theoretical framework for this exciting and fast-developing area of mathematics.
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