THE MEAN-FIELD LIMIT OF THE CUCKER-SMALE MODEL ON COMPLETE RIEMANNIAN MANIFOLDS

Hyunjin Ahn; Seung Yeal Ha; Doheon Kim; Franz Wilhelm Schlöder; Woojoo Shim

doi:10.1090/qam/1613

THE MEAN-FIELD LIMIT OF THE CUCKER-SMALE MODEL ON COMPLETE RIEMANNIAN MANIFOLDS

Hyunjin Ahn, Seung Yeal Ha, Doheon Kim, Franz Wilhelm Schlöder, Woojoo Shim

Department of Mathematics Education

Research output: Contribution to journal › Article › peer-review

8 Scopus citations

Abstract

We study the mean-field limit of the Cucker-Smale (C-S) model for flocking on complete smooth Riemannian manifolds. For this, we first formally derive the kinetic manifold C-S model on manifolds using the BBGKY hierarchy and derive several a priori estimates on emergent dynamics. Then, we present a rigorous mean-field limit from the particle model to the corresponding kinetic model by using the generalized particle-in-cell method. As a byproduct of our rigorous mean-field limit estimate, we also establish a global existence of a measure-valued solution for the derived kinetic model. Compared to the corresponding results on R^d, our procedure requires additional assumption on holonomy and proper a priori bound on the derivative of parallel transports.

Original language	English
Pages (from-to)	403-450
Number of pages	48
Journal	Quarterly of Applied Mathematics
Volume	80
Issue number	3
DOIs	https://doi.org/10.1090/qam/1613
State	Published - 2022

Keywords

Cucker-smale model
Flocking
Mean-field limit
Multi-agent systems
Riemannian manifold

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10.1090/qam/1613

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title = "THE MEAN-FIELD LIMIT OF THE CUCKER-SMALE MODEL ON COMPLETE RIEMANNIAN MANIFOLDS",

abstract = "We study the mean-field limit of the Cucker-Smale (C-S) model for flocking on complete smooth Riemannian manifolds. For this, we first formally derive the kinetic manifold C-S model on manifolds using the BBGKY hierarchy and derive several a priori estimates on emergent dynamics. Then, we present a rigorous mean-field limit from the particle model to the corresponding kinetic model by using the generalized particle-in-cell method. As a byproduct of our rigorous mean-field limit estimate, we also establish a global existence of a measure-valued solution for the derived kinetic model. Compared to the corresponding results on Rd, our procedure requires additional assumption on holonomy and proper a priori bound on the derivative of parallel transports.",

keywords = "Cucker-smale model, Flocking, Mean-field limit, Multi-agent systems, Riemannian manifold",

author = "Hyunjin Ahn and Ha, {Seung Yeal} and Doheon Kim and Schl{\"o}der, {Franz Wilhelm} and Woojoo Shim",

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doi = "10.1090/qam/1613",

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T1 - THE MEAN-FIELD LIMIT OF THE CUCKER-SMALE MODEL ON COMPLETE RIEMANNIAN MANIFOLDS

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AU - Ha, Seung Yeal

AU - Kim, Doheon

AU - Schlöder, Franz Wilhelm

AU - Shim, Woojoo

PY - 2022

Y1 - 2022

N2 - We study the mean-field limit of the Cucker-Smale (C-S) model for flocking on complete smooth Riemannian manifolds. For this, we first formally derive the kinetic manifold C-S model on manifolds using the BBGKY hierarchy and derive several a priori estimates on emergent dynamics. Then, we present a rigorous mean-field limit from the particle model to the corresponding kinetic model by using the generalized particle-in-cell method. As a byproduct of our rigorous mean-field limit estimate, we also establish a global existence of a measure-valued solution for the derived kinetic model. Compared to the corresponding results on Rd, our procedure requires additional assumption on holonomy and proper a priori bound on the derivative of parallel transports.

AB - We study the mean-field limit of the Cucker-Smale (C-S) model for flocking on complete smooth Riemannian manifolds. For this, we first formally derive the kinetic manifold C-S model on manifolds using the BBGKY hierarchy and derive several a priori estimates on emergent dynamics. Then, we present a rigorous mean-field limit from the particle model to the corresponding kinetic model by using the generalized particle-in-cell method. As a byproduct of our rigorous mean-field limit estimate, we also establish a global existence of a measure-valued solution for the derived kinetic model. Compared to the corresponding results on Rd, our procedure requires additional assumption on holonomy and proper a priori bound on the derivative of parallel transports.

KW - Cucker-smale model

KW - Flocking

KW - Mean-field limit

KW - Multi-agent systems

KW - Riemannian manifold

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DO - 10.1090/qam/1613

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JF - Quarterly of Applied Mathematics

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ER -

THE MEAN-FIELD LIMIT OF THE CUCKER-SMALE MODEL ON COMPLETE RIEMANNIAN MANIFOLDS

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