Saved in:
Bibliographic Details
Main Authors: Bayraktar, Erhan, He, Xihao, Yu, Xiang, Yuan, Fengyi
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2602.22602
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866917501841965056
author Bayraktar, Erhan
He, Xihao
Yu, Xiang
Yuan, Fengyi
author_facet Bayraktar, Erhan
He, Xihao
Yu, Xiang
Yuan, Fengyi
contents We study mean-field game (MFG) problems with rough common noise, in which the representative state dynamics are governed by a controlled rough stochastic differential equation driven by an idiosyncratic Brownian motion and a deterministic rough-path signal that affects the whole population. Within this new framework, we introduce a canonical weak formulation based on relaxed controls and rough martingale problems. We prove the existence of a pathwise mean-field equilibrium by developing new compactification tools that accommodate rough integration and differ substantially from classical compactification arguments in the literature. Finally, we discuss the relationship between the pathwise problem and the classical MFG problem with randomized Brownian common noise. Using the notion of a pathwise admissible set, we recast mean-field game problems with common noise as optimization problems over an extended space of probability measures. We establish an equivalent characterization of Carmona-Delarue-Lacker's weak equilibrium and, as an application, give an alternative proof of strong equilibrium without first establishing pathwise uniqueness.
format Preprint
id arxiv_https___arxiv_org_abs_2602_22602
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Mean-field games with rough common noise: the compactification approach
Bayraktar, Erhan
He, Xihao
Yu, Xiang
Yuan, Fengyi
Probability
We study mean-field game (MFG) problems with rough common noise, in which the representative state dynamics are governed by a controlled rough stochastic differential equation driven by an idiosyncratic Brownian motion and a deterministic rough-path signal that affects the whole population. Within this new framework, we introduce a canonical weak formulation based on relaxed controls and rough martingale problems. We prove the existence of a pathwise mean-field equilibrium by developing new compactification tools that accommodate rough integration and differ substantially from classical compactification arguments in the literature. Finally, we discuss the relationship between the pathwise problem and the classical MFG problem with randomized Brownian common noise. Using the notion of a pathwise admissible set, we recast mean-field game problems with common noise as optimization problems over an extended space of probability measures. We establish an equivalent characterization of Carmona-Delarue-Lacker's weak equilibrium and, as an application, give an alternative proof of strong equilibrium without first establishing pathwise uniqueness.
title Mean-field games with rough common noise: the compactification approach
topic Probability
url https://arxiv.org/abs/2602.22602