Inverse problems for mean field games

Hongyu Liu; Chenchen Mou; Shen Zhang

doi:10.1088/1361-6420/acdd90

Inverse problems for mean field games

Hongyu Liu^*
, Chenchen Mou
, Shen Zhang

^*Corresponding author for this work

Department of Mathematics

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

41 Citations (Scopus)

Abstract

The theory of mean ﬁeld games studies the limiting behaviors of large systems where the agents interact with each other in a certain symmetric way. The running and terminal costs are critical for the agents to decide the strategies. However, in practice they are often partially known or totally unknown for the agents, while the total cost is known at the end of the game. To address this challenging issue, we propose and study several inverse problems for mean ﬁeld games. When the Lagrangian is a kinetic energy, we ﬁrst establish unique identiﬁability results, showing that one can recover either the running cost or the terminal cost from knowledge of the total cost. If the running cost is limited to the time-independent class, we can further prove that one can simultaneously recover both the running and the terminal costs. Finally, we extend the results to the setup with general Lagrangians. © 2023 IOP Publishing Ltd

Original language	English
Article number	085003
Journal	Inverse Problems
Volume	39
Issue number	8
Online published	22 Jun 2023
DOIs	https://doi.org/10.1088/1361-6420/acdd90
Publication status	Published - Aug 2023

Research Keywords

mean field games
inverse problems
master equation
unique identifiability

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10.1088/1361-6420/acdd90

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1 Active
4 Finished

GRF: Mathematical Study of Fields Concentration and Gradient Estimates with Applications
LIU, H. (Principal Investigator / Project Coordinator) & Deng, Y. (Co-Investigator)
1/01/23 → …
Project: Research
GRF: Mathematical Studies of Surface-localized Transmission Eigenstates and Applications
LIU, H. (Principal Investigator / Project Coordinator)
1/01/22 → 15/12/25
Project: Research
NSFC: A Mathematical Theory of Subwavelength Resonances in Elasticity with Applications and Beyond
LIU, H. (Principal Investigator / Project Coordinator), Deng, Y. (Co-Investigator), DIAO, H. (Co-Investigator), Li, H. (Co-Investigator) & Wu, W. (Co-Investigator)
1/01/22 → 31/12/25
Project: Research

Cite this

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title = "Inverse problems for mean field games",

abstract = "The theory of mean ﬁeld games studies the limiting behaviors of large systems where the agents interact with each other in a certain symmetric way. The running and terminal costs are critical for the agents to decide the strategies. However, in practice they are often partially known or totally unknown for the agents, while the total cost is known at the end of the game. To address this challenging issue, we propose and study several inverse problems for mean ﬁeld games. When the Lagrangian is a kinetic energy, we ﬁrst establish unique identiﬁability results, showing that one can recover either the running cost or the terminal cost from knowledge of the total cost. If the running cost is limited to the time-independent class, we can further prove that one can simultaneously recover both the running and the terminal costs. Finally, we extend the results to the setup with general Lagrangians. {\textcopyright} 2023 IOP Publishing Ltd ",

keywords = "mean field games, inverse problems, master equation, unique identifiability",

author = "Hongyu Liu and Chenchen Mou and Shen Zhang",

year = "2023",

month = aug,

doi = "10.1088/1361-6420/acdd90",

language = "English",

volume = "39",

journal = "Inverse Problems",

issn = "0266-5611",

publisher = "IOP Publishing",

number = "8",

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TY - JOUR

T1 - Inverse problems for mean field games

AU - Liu, Hongyu

AU - Mou, Chenchen

AU - Zhang, Shen

PY - 2023/8

Y1 - 2023/8

N2 - The theory of mean ﬁeld games studies the limiting behaviors of large systems where the agents interact with each other in a certain symmetric way. The running and terminal costs are critical for the agents to decide the strategies. However, in practice they are often partially known or totally unknown for the agents, while the total cost is known at the end of the game. To address this challenging issue, we propose and study several inverse problems for mean ﬁeld games. When the Lagrangian is a kinetic energy, we ﬁrst establish unique identiﬁability results, showing that one can recover either the running cost or the terminal cost from knowledge of the total cost. If the running cost is limited to the time-independent class, we can further prove that one can simultaneously recover both the running and the terminal costs. Finally, we extend the results to the setup with general Lagrangians. © 2023 IOP Publishing Ltd

AB - The theory of mean ﬁeld games studies the limiting behaviors of large systems where the agents interact with each other in a certain symmetric way. The running and terminal costs are critical for the agents to decide the strategies. However, in practice they are often partially known or totally unknown for the agents, while the total cost is known at the end of the game. To address this challenging issue, we propose and study several inverse problems for mean ﬁeld games. When the Lagrangian is a kinetic energy, we ﬁrst establish unique identiﬁability results, showing that one can recover either the running cost or the terminal cost from knowledge of the total cost. If the running cost is limited to the time-independent class, we can further prove that one can simultaneously recover both the running and the terminal costs. Finally, we extend the results to the setup with general Lagrangians. © 2023 IOP Publishing Ltd

KW - mean field games

KW - inverse problems

KW - master equation

KW - unique identifiability

U2 - 10.1088/1361-6420/acdd90

DO - 10.1088/1361-6420/acdd90

M3 - RGC 21 - Publication in refereed journal

SN - 0266-5611

VL - 39

JO - Inverse Problems

JF - Inverse Problems

IS - 8

M1 - 085003

ER -

Inverse problems for mean field games

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Projects

GRF: Mathematical Study of Fields Concentration and Gradient Estimates with Applications

GRF: Mathematical Studies of Surface-localized Transmission Eigenstates and Applications

NSFC: A Mathematical Theory of Subwavelength Resonances in Elasticity with Applications and Beyond

Cite this